fix activities' types

CLAUDE.md

@@ -127,6 +127,12 @@ Learnt the hard way during debugging (March 2026):
   `addTo()`, which needs valid lngLat → same `'lng'` crash. Set a dummy `[0, 0]`
   if the real position arrives later (e.g. hover markers).
 
+## Observable Plot — known gotchas
+
+- **Curve names are hyphenated, not camelCase.**
+  Use `"monotone-x"`, not `"monotoneX"`. Plot uses its own curve name registry
+  (not raw d3 identifiers). Wrong names throw `unknown curve` at runtime.
+
 The working `astro.config.mjs` Vite section:
 ```js
 vite: {

bincio/extract/cli.py

@@ -60,7 +60,7 @@ def _process_file(path: Path) -> dict:
     if activity.source_hash in _known_hashes:
         return {"status": "duplicate"}
 
-    # Enrich from Strava CSV
+    # Enrich from Strava CSV (CSV is authoritative for sport on Strava activities)
     row = _strava_lookup.get(activity.source_file)
     if row:
         if not activity.title:
@@ -69,6 +69,10 @@ def _process_file(path: Path) -> dict:
             activity.description = row.get("Activity Description", "").strip() or None
         if not activity.strava_id:
             activity.strava_id = row.get("Activity ID", "").strip() or None
+        csv_type = row.get("Activity Type", "").strip()
+        if csv_type:
+            from bincio.extract.sport import normalise_sport
+            activity.sport = normalise_sport(csv_type)
 
     try:
         metrics = compute(activity)

bincio/extract/parsers/fit.py

@@ -16,7 +16,7 @@ class FitParser:
 
         points: list[DataPoint] = []
         laps: list[LapData] = []
-        sport: str = "cycling"
+        sport: str = "other"
         sub_sport: str | None = None
         device: str | None = None
 
@@ -26,9 +26,19 @@ class FitParser:
                     continue
 
                 if frame.name == "sport":
-                    sport = normalise_sport(_get(frame, "sport", "cycling"))
+                    sport = normalise_sport(_get(frame, "sport"))
                     sub_sport = _normalise_sub_sport(_get(frame, "sub_sport"))
 
+                elif frame.name == "session":
+                    # Karoo and Strava-generated FIT files store sport here
+                    # instead of (or in addition to) a separate 'sport' message.
+                    # Only use session sport if no 'sport' frame was seen yet.
+                    if sport == "other":
+                        raw_sport = _get(frame, "sport")
+                        if raw_sport is not None:
+                            sport = normalise_sport(raw_sport)
+                            sub_sport = _normalise_sub_sport(_get(frame, "sub_sport"))
+
                 elif frame.name == "device_info":
                     mfr = _get(frame, "manufacturer")
                     prod = _get(frame, "product_name") or _get(frame, "garmin_product")

bincio/extract/sport.py

@@ -1,33 +1,53 @@
 """Sport name normalisation."""
 
+import re
+
 _MAPPING: dict[str, str] = {
-    # cycling variants
+    # cycling variants (FIT enums, GPX types, Strava API/CSV types)
     "cycling": "cycling",
     "biking": "cycling",
     "bike": "cycling",
+    "ride": "cycling",
     "road_biking": "cycling",
+    "road_cycling": "cycling",
     "mountain_biking": "cycling",
+    "mountain_bike_ride": "cycling",
     "gravel_cycling": "cycling",
+    "gravel_ride": "cycling",
     "cyclocross": "cycling",
     "indoor_cycling": "cycling",
+    "indoor_ride": "cycling",
     "virtual_ride": "cycling",
-    "e-biking": "cycling",
+    "e_biking": "cycling",
+    "ebikeride": "cycling",
+    "e_bike_ride": "cycling",
+    "ebike_ride": "cycling",
+    "handcycle": "cycling",
+    "velomobile": "cycling",
     # running
     "running": "running",
     "run": "running",
     "trail_running": "running",
+    "trail_run": "running",
     "treadmill_running": "running",
+    "treadmill": "running",
     "virtual_run": "running",
+    "outdoor_run": "running",
+    "indoor_run": "running",
+    "track_run": "running",
     # hiking
     "hiking": "hiking",
     "hike": "hiking",
+    "outdoor_hike": "hiking",
     # walking
     "walking": "walking",
     "walk": "walking",
+    "outdoor_walk": "walking",
     # swimming
     "swimming": "swimming",
     "swim": "swimming",
     "open_water_swimming": "swimming",
+    "lap_swimming": "swimming",
 }
 
 BAS_SPORTS = {"cycling", "running", "hiking", "walking", "swimming", "other"}
@@ -36,5 +56,7 @@ BAS_SPORTS = {"cycling", "running", "hiking", "walking", "swimming", "other"}
 def normalise_sport(raw: object) -> str:
     if raw is None:
         return "other"
-    key = str(raw).lower().strip().replace(" ", "_")
+    key = str(raw).lower().strip().replace(" ", "_").replace("-", "_")
+    # Strip leading date-like prefixes e.g. "20231117outdoor_run" → "outdoor_run"
+    key = re.sub(r"^\d+", "", key)
     return _MAPPING.get(key, "other")

site/src/components/ActivityCharts.svelte

@@ -1,4 +1,5 @@
 <script lang="ts">
+  import * as Plot from '@observablehq/plot';
   import { onMount } from 'svelte';
   import type { Timeseries } from '../lib/types';
 
@@ -10,7 +11,6 @@
 
   let activeTab: Tab = 'elevation';
   let chartEl: HTMLDivElement;
-  let Plot: any;
   let chart: SVGElement | null = null;
 
   // Pre-build data array once
@@ -34,18 +34,17 @@
     cadence: 'Cadence',
   };
 
-  onMount(async () => {
-    Plot = await import('@observablehq/plot');
+  onMount(() => {
     renderChart();
   });
 
-  $: if (Plot && chartEl) {
-    activeTab; // reactive dependency
+  $: if (chartEl) {
+    activeTab; // reactive dependency — re-render when tab changes
     renderChart();
   }
 
   function renderChart() {
-    if (!Plot || !chartEl) return;
+    if (!chartEl) return;
     chart?.remove();
 
     const w = chartEl.clientWidth || 800;
@@ -59,25 +58,25 @@
     if (activeTab === 'elevation' && hasElevation) {
       yKey = 'elevation'; yLabel = 'Elevation (m)'; color = '#00c8ff';
       marks.push(
-        Plot.areaY(data, { x: 't', y: yKey, fill: color, fillOpacity: 0.15, curve: 'monotoneX' }),
-        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotoneX' }),
+        Plot.areaY(data, { x: 't', y: yKey, fill: color, fillOpacity: 0.15, curve: 'monotone-x' }),
+        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotone-x' }),
       );
     } else if (activeTab === 'speed' && hasSpeed) {
       yKey = 'speed'; yLabel = 'Speed (km/h)'; color = '#ff6b35';
       marks.push(
-        Plot.areaY(data, { x: 't', y: yKey, fill: color, fillOpacity: 0.15, curve: 'monotoneX' }),
-        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotoneX' }),
+        Plot.areaY(data, { x: 't', y: yKey, fill: color, fillOpacity: 0.15, curve: 'monotone-x' }),
+        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotone-x' }),
       );
     } else if (activeTab === 'hr' && hasHR) {
       yKey = 'hr'; yLabel = 'Heart Rate (bpm)'; color = '#f87171';
       marks.push(
-        Plot.areaY(data, { x: 't', y: yKey, fill: color, fillOpacity: 0.15, curve: 'monotoneX' }),
-        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotoneX' }),
+        Plot.areaY(data, { x: 't', y: yKey, fill: color, fillOpacity: 0.15, curve: 'monotone-x' }),
+        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotone-x' }),
       );
     } else if (activeTab === 'cadence' && hasCadence) {
       yKey = 'cadence'; yLabel = 'Cadence (rpm)'; color = '#a78bfa';
       marks.push(
-        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotoneX' }),
+        Plot.lineY(data, { x: 't', y: yKey, stroke: color, strokeWidth: 1.5, curve: 'monotone-x' }),
       );
     }