Agent-almanac plan-tour-route

install

source · Clone the upstream repo

git clone https://github.com/pjt222/agent-almanac

Claude Code · Install into ~/.claude/skills/

T=$(mktemp -d) && git clone --depth=1 https://github.com/pjt222/agent-almanac "$T" && mkdir -p ~/.claude/skills && cp -r "$T/i18n/zh-CN/skills/plan-tour-route" ~/.claude/skills/pjt222-agent-almanac-plan-tour-route-722170 && rm -rf "$T"

manifest: i18n/zh-CN/skills/plan-tour-route/SKILL.md

source content

Plan Tour Route

Plan and optimize a multi-stop tour route with time estimates, distance calculations, and points of interest along the way.

适用场景

Planning a road trip or walking tour with multiple destinations
Optimizing visit order to minimize total travel time or distance
Discovering restaurants, viewpoints, or cultural sites along a route
Generating a day-by-day itinerary with realistic time budgets
Comparing driving vs. walking vs. public transport options

输入

必需: List of waypoints (place names, addresses, or coordinates)
必需: Travel mode (driving, walking, cycling, public transport)
可选: Start and end points (if different from first/last waypoint)
可选: Time constraints (departure time, must-arrive-by, opening hours)
可选: POI categories to discover (food, viewpoints, museums, fuel)
可选: Preferred route type (fastest, shortest, scenic)

步骤

第 1 步：Define Waypoints

Collect and structure all stops the tour must include.

Waypoint Schema:
┌──────────┬────────────────────────────────────────────┐
│ Field    │ Description                                │
├──────────┼────────────────────────────────────────────┤
│ name     │ Human-readable label for the stop          │
│ address  │ Street address or place name               │
│ lat/lon  │ Coordinates (if known; otherwise geocode)  │
│ duration │ Time to spend at this stop (minutes)       │
│ priority │ Must-visit vs. nice-to-have                │
│ hours    │ Opening/closing times (if applicable)      │
│ notes    │ Parking, accessibility, booking required    │
└──────────┴────────────────────────────────────────────┘

Separate fixed-order waypoints (e.g., hotel at start and end) from reorderable waypoints.

预期结果： A structured list of all waypoints with at minimum a name and either an address or coordinates for each.

失败处理： If a waypoint is ambiguous (e.g., "the castle"), use WebSearch to resolve it to a specific location. If coordinates are needed but only a name is available, defer to Step 2 for geocoding.

第 2 步：Geocode and Validate

Convert all waypoints to latitude/longitude coordinates and verify they are reachable.

Geocoding Sources (in preference order):
1. Nominatim (OpenStreetMap) - free, no key required
   https://nominatim.openstreetmap.org/search?q=QUERY&format=json

2. Overpass API - for POI-type queries
   https://overpass-api.de/api/interpreter

3. Manual coordinates from mapping services

For each waypoint:

Query the geocoding service with the address or place name
Verify the returned coordinates are in the expected region
Check that multiple results are disambiguated (pick the correct one)
Store coordinates alongside the original waypoint data

预期结果： Every waypoint has valid latitude/longitude coordinates, and all points fall within a plausible geographic region (no outliers on wrong continents).

失败处理： If geocoding returns no results, try alternative spellings, add region/country qualifiers, or search for nearby landmarks. If a waypoint is in a remote area with poor OSM coverage, use WebSearch to find coordinates from travel blogs or tourism sites.

第 3 步：Optimize Route Order

Determine the visit sequence that minimizes total travel time or distance.

Optimization Strategies:
┌─────────────────────┬────────────────────────────────────────┐
│ Strategy            │ When to use                            │
├─────────────────────┼────────────────────────────────────────┤
│ Fixed order         │ Stops must be visited in given sequence│
│ Nearest neighbor    │ Quick approximation for 5-15 stops     │
│ TSP solver          │ Optimal ordering for any number        │
│ Time-window aware   │ Stops have opening hours constraints   │
│ Cluster-then-route  │ Stops span multiple days/regions       │
└─────────────────────┴────────────────────────────────────────┘

For the nearest-neighbor heuristic:

Start at the designated origin
From the current position, select the unvisited waypoint closest by travel time
Move to that waypoint and mark it visited
Repeat until all waypoints are visited
Return to the designated end point (if round trip)

For multi-day tours, cluster waypoints by geographic proximity first, then optimize within each day.

预期结果： An ordered sequence of waypoints that produces a route without excessive backtracking. Total distance should be within 20% of the theoretical optimum for fewer than 10 stops.

失败处理： If the nearest-neighbor result has obvious backtracking (later stops are closer to earlier ones), try reversing the route or use a 2-opt improvement: swap pairs of edges and keep the swap if it shortens the route. For time-window constraints, verify that arrival times at each stop fall within opening hours.

第 4 步：Calculate Times and Distances

Compute travel time and distance for each leg of the route.

Time Estimation Methods:
┌──────────────┬────────────┬────────────────────────────────┐
│ Mode         │ Avg Speed  │ Notes                          │
├──────────────┼────────────┼────────────────────────────────┤
│ Highway      │ 100 km/h   │ Varies by country/road type    │
│ Rural road   │ 60 km/h    │ Add 20% for winding roads      │
│ City driving │ 30 km/h    │ Add time for parking            │
│ Walking      │ 4.5 km/h   │ Flat terrain; reduce for hills │
│ Cycling      │ 15 km/h    │ Touring pace with luggage      │
│ Hiking       │ 3-4 km/h   │ Use Munter formula for accuracy│
└──────────────┴────────────┴────────────────────────────────┘

For each consecutive pair of waypoints:

Calculate straight-line (haversine) distance as a baseline
Apply a detour factor (1.3 for roads, 1.4 for urban, 1.2 for highways)
Estimate travel time from adjusted distance and mode speed
Add buffer time: 10% for driving, 15% for public transport
Sum leg times plus dwell times at each stop for total tour duration

预期结果： A time/distance matrix for all legs, with a running cumulative time that accounts for both travel and dwell time at each stop. Total tour duration should be realistic (not exceeding available daylight for walking tours).

失败处理： If estimated times seem unrealistic (e.g., 2 hours for a 10 km city drive), check whether the detour factor is appropriate. For mountain roads, increase the detour factor to 1.6-2.0. For public transport, use WebSearch to check actual timetables rather than estimating.

第 5 步：Generate Itinerary with POIs

Compile the optimized route into a complete itinerary with discovered points of interest.

POI Discovery (Overpass API query pattern):
  [out:json];
  (
    node["tourism"="viewpoint"](around:RADIUS,LAT,LON);
    node["amenity"="restaurant"](around:RADIUS,LAT,LON);
    node["amenity"="cafe"](around:RADIUS,LAT,LON);
  );
  out body;

Recommended search radius:
- Along route corridor: 500 m for walking, 2 km for driving
- At waypoints: 1 km radius

Build the itinerary document:

Header with tour name, dates, total distance, total time
For each day (if multi-day):
- Day summary (start, end, total km, total hours)
- For each leg: departure time, travel mode, distance, duration
- For each stop: arrival time, dwell time, description, POIs nearby
Logistics section: parking, fuel stops, rest areas, emergency contacts
Map reference (link to route on OpenStreetMap or export as GPX)

预期结果： A complete, time-budgeted itinerary document with realistic schedules, POI suggestions at each stop, and practical logistics information.

失败处理： If POI queries return too many results, filter by rating or relevance. If the itinerary exceeds available time, mark lower-priority stops as optional or split into additional days. If no POIs are found in remote areas, note this and suggest the traveler research locally on arrival.

验证清单

All waypoints are geocoded with valid coordinates
Route order minimizes backtracking (no obvious inefficiencies)
Travel times are realistic for the chosen mode
Dwell times at each stop are accounted for
Total tour duration fits within the available time window
POIs are relevant and located near the route
Opening hours of time-sensitive stops are respected
Itinerary includes practical logistics (parking, fuel, rest stops)

常见问题

Ignoring opening hours: Optimizing purely by distance can route you to a museum after it closes. Always check time-window constraints for attractions.
Underestimating urban travel: City driving and parking can double the expected time. Add generous buffers for urban stops.
Over-packing the itinerary: Filling every minute leaves no room for delays or spontaneous discoveries. Build in 30-60 minutes of slack per half-day.
Straight-line distance fallacy: Haversine distance severely underestimates actual road distance, especially in mountainous or coastal terrain. Always apply a detour factor.
Forgetting return logistics: One-way routes need plans for returning rental cars, catching trains, or arranging pickup.
Seasonal road closures: Mountain passes, ferries, and scenic routes may be closed seasonally. Verify access dates before routing.