Awesome-omni-skills azure-maps-search-dotnet-v2
Azure Maps (.NET) workflow skill. Use this skill when the user needs Azure Maps SDK for .NET. Location-based services including geocoding, routing, rendering, geolocation, and weather. Use for address search, directions, map tiles, IP geolocation, and weather data and the operator should preserve the upstream workflow, copied support files, and provenance before merging or handing off.
install
source · Clone the upstream repo
git clone https://github.com/diegosouzapw/awesome-omni-skills
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/diegosouzapw/awesome-omni-skills "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/azure-maps-search-dotnet-v2" ~/.claude/skills/diegosouzapw-awesome-omni-skills-azure-maps-search-dotnet-v2 && rm -rf "$T"
manifest:
skills/azure-maps-search-dotnet-v2/SKILL.mdsource content
Azure Maps (.NET)
Overview
This public intake copy packages
plugins/antigravity-awesome-skills/skills/azure-maps-search-dotnethttps://github.com/sickn33/antigravity-awesome-skillsUse it when the operator needs the upstream workflow, support files, and repository context to stay intact while the public validator and private enhancer continue their normal downstream flow.
This intake keeps the copied upstream files intact and uses
metadata.jsonORIGIN.mdAzure Maps (.NET) Azure Maps SDK for .NET providing location-based services: geocoding, routing, rendering, geolocation, and weather.
Imported source sections that did not map cleanly to the public headings are still preserved below or in the support files. Notable imported sections: Environment Variables, Authentication, Client Hierarchy, Error Handling, Limitations.
When to Use This Skill
Use this section as the trigger filter. It should make the activation boundary explicit before the operator loads files, runs commands, or opens a pull request.
- This skill is applicable to execute the workflow or actions described in the overview.
- Use when the request clearly matches the imported source intent: Azure Maps SDK for .NET. Location-based services including geocoding, routing, rendering, geolocation, and weather. Use for address search, directions, map tiles, IP geolocation, and weather data.
- Use when the operator should preserve upstream workflow detail instead of rewriting the process from scratch.
- Use when provenance needs to stay visible in the answer, PR, or review packet.
- Use when copied upstream references, examples, or scripts materially improve the answer.
- Use when the workflow should remain reviewable in the public intake repo before the private enhancer takes over.
Operating Table
| Situation | Start here | Why it matters |
|---|---|---|
| First-time use | | Confirms repository, branch, commit, and imported path before touching the copied workflow |
| Provenance review | | Gives reviewers a plain-language audit trail for the imported source |
| Workflow execution | | Starts with the smallest copied file that materially changes execution |
| Supporting context | | Adds the next most relevant copied source file without loading the entire package |
| Handoff decision | | Helps the operator switch to a stronger native skill when the task drifts |
Workflow
This workflow is intentionally editorial and operational at the same time. It keeps the imported source useful to the operator while still satisfying the public intake standards that feed the downstream enhancer flow.
- Azure.Maps.Search: v2.0.0-beta.5
- Azure.Maps.Routing: v1.0.0-beta.4
- Azure.Maps.Rendering: v2.0.0-beta.1
- Azure.Maps.Geolocation: v1.0.0-beta.3
- Azure.ResourceManager.Maps: v1.1.0-beta.2
- Confirm the user goal, the scope of the imported workflow, and whether this skill is still the right router for the task.
- Read the overview and provenance files before loading any copied upstream support files.
Imported Workflow Notes
Imported: Installation
# Search (geocoding, reverse geocoding) dotnet add package Azure.Maps.Search --prerelease # Routing (directions, route matrix) dotnet add package Azure.Maps.Routing --prerelease # Rendering (map tiles, static images) dotnet add package Azure.Maps.Rendering --prerelease # Geolocation (IP to location) dotnet add package Azure.Maps.Geolocation --prerelease # Weather dotnet add package Azure.Maps.Weather --prerelease # Resource Management (account management, SAS tokens) dotnet add package Azure.ResourceManager.Maps --prerelease # Required for authentication dotnet add package Azure.Identity
Current Versions:
: v2.0.0-beta.5Azure.Maps.Search
: v1.0.0-beta.4Azure.Maps.Routing
: v2.0.0-beta.1Azure.Maps.Rendering
: v1.0.0-beta.3Azure.Maps.Geolocation
: v1.1.0-beta.2Azure.ResourceManager.Maps
Imported: Core Workflows
1. Geocoding (Address to Coordinates)
using Azure; using Azure.Maps.Search; var credential = new AzureKeyCredential(subscriptionKey); var client = new MapsSearchClient(credential); Response<GeocodingResponse> result = client.GetGeocoding("1 Microsoft Way, Redmond, WA 98052"); foreach (var feature in result.Value.Features) { Console.WriteLine($"Coordinates: {string.Join(",", feature.Geometry.Coordinates)}"); Console.WriteLine($"Address: {feature.Properties.Address.FormattedAddress}"); Console.WriteLine($"Confidence: {feature.Properties.Confidence}"); }
2. Batch Geocoding
using Azure.Maps.Search.Models.Queries; List<GeocodingQuery> queries = new List<GeocodingQuery> { new GeocodingQuery() { Query = "400 Broad St, Seattle, WA" }, new GeocodingQuery() { Query = "1 Microsoft Way, Redmond, WA" }, new GeocodingQuery() { AddressLine = "Space Needle", Top = 1 }, }; Response<GeocodingBatchResponse> results = client.GetGeocodingBatch(queries); foreach (var batchItem in results.Value.BatchItems) { foreach (var feature in batchItem.Features) { Console.WriteLine($"Coordinates: {string.Join(",", feature.Geometry.Coordinates)}"); } }
3. Reverse Geocoding (Coordinates to Address)
using Azure.Core.GeoJson; GeoPosition coordinates = new GeoPosition(-122.138685, 47.6305637); Response<GeocodingResponse> result = client.GetReverseGeocoding(coordinates); foreach (var feature in result.Value.Features) { Console.WriteLine($"Address: {feature.Properties.Address.FormattedAddress}"); Console.WriteLine($"Locality: {feature.Properties.Address.Locality}"); }
4. Get Boundary Polygon
using Azure.Maps.Search.Models; GetPolygonOptions options = new GetPolygonOptions() { Coordinates = new GeoPosition(-122.204141, 47.61256), ResultType = BoundaryResultTypeEnum.Locality, Resolution = ResolutionEnum.Small, }; Response<Boundary> result = client.GetPolygon(options); Console.WriteLine($"Boundary copyright: {result.Value.Properties?.Copyright}"); Console.WriteLine($"Polygon count: {result.Value.Geometry.Count}");
5. Route Directions
using Azure; using Azure.Core.GeoJson; using Azure.Maps.Routing; using Azure.Maps.Routing.Models; var client = new MapsRoutingClient(new AzureKeyCredential(subscriptionKey)); List<GeoPosition> routePoints = new List<GeoPosition>() { new GeoPosition(-122.34, 47.61), // Seattle new GeoPosition(-122.13, 47.64) // Redmond }; RouteDirectionQuery query = new RouteDirectionQuery(routePoints); Response<RouteDirections> result = client.GetDirections(query); foreach (var route in result.Value.Routes) { Console.WriteLine($"Distance: {route.Summary.LengthInMeters} meters"); Console.WriteLine($"Duration: {route.Summary.TravelTimeDuration}"); foreach (RouteLeg leg in route.Legs) { Console.WriteLine($"Leg points: {leg.Points.Count}"); } }
6. Route Directions with Options
RouteDirectionOptions options = new RouteDirectionOptions() { RouteType = RouteType.Fastest, UseTrafficData = true, TravelMode = TravelMode.Bicycle, Language = RoutingLanguage.EnglishUsa, InstructionsType = RouteInstructionsType.Text, }; RouteDirectionQuery query = new RouteDirectionQuery(routePoints) { RouteDirectionOptions = options }; Response<RouteDirections> result = client.GetDirections(query);
7. Route Matrix
RouteMatrixQuery routeMatrixQuery = new RouteMatrixQuery { Origins = new List<GeoPosition>() { new GeoPosition(-122.34, 47.61), new GeoPosition(-122.13, 47.64) }, Destinations = new List<GeoPosition>() { new GeoPosition(-122.20, 47.62), new GeoPosition(-122.40, 47.65) }, }; // Synchronous (up to 100 route combinations) Response<RouteMatrixResult> result = client.GetImmediateRouteMatrix(routeMatrixQuery); foreach (var cell in result.Value.Matrix.SelectMany(row => row)) { Console.WriteLine($"Distance: {cell.Response?.RouteSummary?.LengthInMeters}"); Console.WriteLine($"Duration: {cell.Response?.RouteSummary?.TravelTimeDuration}"); } // Asynchronous (up to 700 route combinations) RouteMatrixOptions routeMatrixOptions = new RouteMatrixOptions(routeMatrixQuery) { TravelTimeType = TravelTimeType.All, }; GetRouteMatrixOperation asyncResult = client.GetRouteMatrix(WaitUntil.Completed, routeMatrixOptions);
8. Route Range (Isochrone)
RouteRangeOptions options = new RouteRangeOptions(-122.34, 47.61) { TimeBudget = new TimeSpan(0, 20, 0) // 20 minutes }; Response<RouteRangeResult> result = client.GetRouteRange(options); // result.Value.ReachableRange contains the polygon Console.WriteLine($"Boundary points: {result.Value.ReachableRange.Boundary.Count}");
9. Get Map Tiles
using Azure; using Azure.Maps.Rendering; var client = new MapsRenderingClient(new AzureKeyCredential(subscriptionKey)); int zoom = 10; int tileSize = 256; // Convert coordinates to tile index MapTileIndex tileIndex = MapsRenderingClient.PositionToTileXY( new GeoPosition(13.3854, 52.517), zoom, tileSize); // Fetch map tile GetMapTileOptions options = new GetMapTileOptions( MapTileSetId.MicrosoftImagery, new MapTileIndex(tileIndex.X, tileIndex.Y, zoom) ); Response<Stream> mapTile = client.GetMapTile(options); // Save to file using (FileStream fileStream = File.Create("./MapTile.png")) { mapTile.Value.CopyTo(fileStream); }
10. IP Geolocation
using System.Net; using Azure; using Azure.Maps.Geolocation; var client = new MapsGeolocationClient(new AzureKeyCredential(subscriptionKey)); IPAddress ipAddress = IPAddress.Parse("2001:4898:80e8:b::189"); Response<CountryRegionResult> result = client.GetCountryCode(ipAddress); Console.WriteLine($"Country ISO Code: {result.Value.IsoCode}");
11. Current Weather
using Azure; using Azure.Core.GeoJson; using Azure.Maps.Weather; var client = new MapsWeatherClient(new AzureKeyCredential(subscriptionKey)); var position = new GeoPosition(-122.13071, 47.64011); var options = new GetCurrentWeatherConditionsOptions(position); Response<CurrentConditionsResult> result = client.GetCurrentWeatherConditions(options); foreach (var condition in result.Value.Results) { Console.WriteLine($"Temperature: {condition.Temperature.Value} {condition.Temperature.Unit}"); Console.WriteLine($"Weather: {condition.Phrase}"); Console.WriteLine($"Humidity: {condition.RelativeHumidity}%"); }
Imported: Environment Variables
AZURE_MAPS_SUBSCRIPTION_KEY=<your-subscription-key> AZURE_MAPS_CLIENT_ID=<your-client-id> # For Entra ID auth
Examples
Example 1: Ask for the upstream workflow directly
Use @azure-maps-search-dotnet-v2 to handle <task>. Start from the copied upstream workflow, load only the files that change the outcome, and keep provenance visible in the answer.
Explanation: This is the safest starting point when the operator needs the imported workflow, but not the entire repository.
Example 2: Ask for a provenance-grounded review
Review @azure-maps-search-dotnet-v2 against metadata.json and ORIGIN.md, then explain which copied upstream files you would load first and why.
Explanation: Use this before review or troubleshooting when you need a precise, auditable explanation of origin and file selection.
Example 3: Narrow the copied support files before execution
Use @azure-maps-search-dotnet-v2 for <task>. Load only the copied references, examples, or scripts that change the outcome, and name the files explicitly before proceeding.
Explanation: This keeps the skill aligned with progressive disclosure instead of loading the whole copied package by default.
Example 4: Build a reviewer packet
Review @azure-maps-search-dotnet-v2 using the copied upstream files plus provenance, then summarize any gaps before merge.
Explanation: This is useful when the PR is waiting for human review and you want a repeatable audit packet.
Best Practices
Treat the generated public skill as a reviewable packaging layer around the upstream repository. The goal is to keep provenance explicit and load only the copied source material that materially improves execution.
- Use Entra ID for production — Prefer over subscription keys
- Batch operations — Use batch geocoding for multiple addresses
- Cache results — Geocoding results don't change frequently
- Use appropriate tile sizes — 256 or 512 pixels based on display
- Handle rate limits — Implement exponential backoff
- Use async route matrix — For large matrix calculations (>100)
- Consider traffic data — Set UseTrafficData = true for accurate ETAs
Imported Operating Notes
Imported: Best Practices
- Use Entra ID for production — Prefer over subscription keys
- Batch operations — Use batch geocoding for multiple addresses
- Cache results — Geocoding results don't change frequently
- Use appropriate tile sizes — 256 or 512 pixels based on display
- Handle rate limits — Implement exponential backoff
- Use async route matrix — For large matrix calculations (>100)
- Consider traffic data — Set
for accurate ETAsUseTrafficData = true
Troubleshooting
Problem: The operator skipped the imported context and answered too generically
Symptoms: The result ignores the upstream workflow in
plugins/antigravity-awesome-skills/skills/azure-maps-search-dotnetmetadata.jsonORIGIN.mdProblem: The imported workflow feels incomplete during review
Symptoms: Reviewers can see the generated
SKILL.mdProblem: The task drifted into a different specialization
Symptoms: The imported skill starts in the right place, but the work turns into debugging, architecture, design, security, or release orchestration that a native skill handles better. Solution: Use the related skills section to hand off deliberately. Keep the imported provenance visible so the next skill inherits the right context instead of starting blind.
Related Skills
- Use when the work is better handled by that native specialization after this imported skill establishes context.@azure-ai-projects-py-v2
- Use when the work is better handled by that native specialization after this imported skill establishes context.@azure-ai-projects-ts-v2
- Use when the work is better handled by that native specialization after this imported skill establishes context.@azure-ai-textanalytics-py-v2
- Use when the work is better handled by that native specialization after this imported skill establishes context.@azure-ai-transcription-py-v2
Additional Resources
Use this support matrix and the linked files below as the operator packet for this imported skill. They should reflect real copied source material, not generic scaffolding.
| Resource family | What it gives the reviewer | Example path |
|---|---|---|
| copied reference notes, guides, or background material from upstream | |
| worked examples or reusable prompts copied from upstream | |
| upstream helper scripts that change execution or validation | |
| routing or delegation notes that are genuinely part of the imported package | |
| supporting assets or schemas copied from the source package | |
Imported Reference Notes
Imported: Key Types Reference
Search Package
| Type | Purpose |
|---|---|
| Main client for search operations |
| Geocoding result |
| Batch geocoding result |
| Query for batch geocoding |
| Query for batch reverse geocoding |
| Options for polygon retrieval |
| Boundary polygon result |
| Boundary type (Locality, AdminDistrict, etc.) |
| Polygon resolution (Small, Medium, Large) |
Routing Package
| Type | Purpose |
|---|---|
| Main client for routing operations |
| Query for route directions |
| Route calculation options |
| Route directions result |
| Segment of a route |
| Query for route matrix |
| Route matrix result |
| Options for isochrone |
| Isochrone result |
| Route type (Fastest, Shortest, Eco, Thrilling) |
| Travel mode (Car, Truck, Bicycle, Pedestrian) |
Rendering Package
| Type | Purpose |
|---|---|
| Main client for rendering |
| Map tile options |
| Tile coordinates (X, Y, Zoom) |
| Tile set identifier |
Common Types
| Type | Purpose |
|---|---|
| Geographic position (longitude, latitude) |
| Bounding box for geographic area |
Imported: Reference Links
| Resource | URL |
|---|---|
| Azure Maps Documentation | https://learn.microsoft.com/azure/azure-maps/ |
| Search API Reference | https://learn.microsoft.com/dotnet/api/azure.maps.search |
| Routing API Reference | https://learn.microsoft.com/dotnet/api/azure.maps.routing |
| GitHub Source | https://github.com/Azure/azure-sdk-for-net/tree/main/sdk/maps |
| Pricing | https://azure.microsoft.com/pricing/details/azure-maps/ |
Imported: Authentication
Subscription Key (Shared Key)
using Azure; using Azure.Maps.Search; var subscriptionKey = Environment.GetEnvironmentVariable("AZURE_MAPS_SUBSCRIPTION_KEY"); var credential = new AzureKeyCredential(subscriptionKey); var client = new MapsSearchClient(credential);
Microsoft Entra ID (Recommended for Production)
using Azure.Identity; using Azure.Maps.Search; var credential = new DefaultAzureCredential(); var clientId = Environment.GetEnvironmentVariable("AZURE_MAPS_CLIENT_ID"); var client = new MapsSearchClient(credential, clientId);
Shared Access Signature (SAS)
using Azure; using Azure.Core; using Azure.Identity; using Azure.ResourceManager; using Azure.ResourceManager.Maps; using Azure.ResourceManager.Maps.Models; using Azure.Maps.Search; // Authenticate with Azure Resource Manager ArmClient armClient = new ArmClient(new DefaultAzureCredential()); // Get Maps account resource ResourceIdentifier mapsAccountResourceId = MapsAccountResource.CreateResourceIdentifier( subscriptionId, resourceGroupName, accountName); MapsAccountResource mapsAccount = armClient.GetMapsAccountResource(mapsAccountResourceId); // Generate SAS token MapsAccountSasContent sasContent = new MapsAccountSasContent( MapsSigningKey.PrimaryKey, principalId, maxRatePerSecond: 500, start: DateTime.UtcNow.ToString("O"), expiry: DateTime.UtcNow.AddDays(1).ToString("O")); Response<MapsAccountSasToken> sas = mapsAccount.GetSas(sasContent); // Create client with SAS token var sasCredential = new AzureSasCredential(sas.Value.AccountSasToken); var client = new MapsSearchClient(sasCredential);
Imported: Client Hierarchy
Azure.Maps.Search └── MapsSearchClient ├── GetGeocoding() → Geocode addresses ├── GetGeocodingBatch() → Batch geocoding ├── GetReverseGeocoding() → Coordinates to address ├── GetReverseGeocodingBatch() → Batch reverse geocoding └── GetPolygon() → Get boundary polygons Azure.Maps.Routing └── MapsRoutingClient ├── GetDirections() → Route directions ├── GetImmediateRouteMatrix() → Route matrix (sync, ≤100) ├── GetRouteMatrix() → Route matrix (async, ≤700) └── GetRouteRange() → Isochrone/reachable range Azure.Maps.Rendering └── MapsRenderingClient ├── GetMapTile() → Map tiles ├── GetMapStaticImage() → Static map images └── GetCopyrightCaption() → Copyright info Azure.Maps.Geolocation └── MapsGeolocationClient └── GetCountryCode() → IP to country/region Azure.Maps.Weather └── MapsWeatherClient ├── GetCurrentWeatherConditions() → Current weather ├── GetDailyForecast() → Daily forecast ├── GetHourlyForecast() → Hourly forecast └── GetSevereWeatherAlerts() → Weather alerts
Imported: Error Handling
try { Response<GeocodingResponse> result = client.GetGeocoding(address); } catch (RequestFailedException ex) { Console.WriteLine($"Status: {ex.Status}"); Console.WriteLine($"Error: {ex.Message}"); switch (ex.Status) { case 400: // Invalid request parameters break; case 401: // Authentication failed break; case 429: // Rate limited - implement backoff break; } }
Imported: Limitations
- Use this skill only when the task clearly matches the scope described above.
- Do not treat the output as a substitute for environment-specific validation, testing, or expert review.
- Stop and ask for clarification if required inputs, permissions, safety boundaries, or success criteria are missing.