public class BoxSearch
{
public double LatitudeTopLeft { get; set; }
public double LongitudeTopLeft { get; set; }
public double LatitudeBottomRight { get; set; }
public double LongitudeBottomRight { get; set; }
}
Posts tagged with 'csharp'
Ed Charbeneau is writing SPA with Blazor. This episode is sponsored by Smartsheet.
Show Notes:
-
Ed is the host of the Eat Sleep Code podcast, check it out! We even did a cross-over episode for the Stir Trek conference (episode 45)
-
Daniel Roth is a Program Manager at Microsoft
-
WebAssembly (aka Wasm) 1.0 has shipped to all the major browsers.
-
Mono is an open-source implementation of .NET.
-
Steve Sanderson created the original pilot of Blazor (he also created Knockout.js)
-
The term "evergreen browsers" has been around for some time. It may have been popularized by Paul Irish.
-
Ed Charbeneau on Channel 9
Want to be on the next episode? You can! All you need is the willingness to talk about something technical.
Music is by Joe Ferg, check out more music on JoeFerg.com!
Eric Potter is writing code to play NES games. This episode is sponsored by Smartsheet.
Show Notes:
-
R.O.B. video from the NES Works video series
-
Check out the NES AI videos from Tom7. I reference part 2 in this podcast. Check out starting at 18:11 especially.
-
Podcast: Retronauts
-
Book: Racing the Beam
-
Some of the games mentioned in this episode:
-
NintacoProxy on NuGet
-
ROMhacking.net which includes memory locations, translations, and more.
-
Book: I Am Error
-
Event: PonCon, Sep 22nd 2018
Want to be on the next episode? You can! All you need is the willingness to talk about something technical.
Music is by Joe Ferg, check out more music on JoeFerg.com!
This is a repost that originally appeared on the Couchbase Blog: Geospatial Search with ASP.NET Core, Aurelia, and Google Maps.
Geospatial search is now fully supported in Couchbase Server 5.5. Check out the Couchbase Server 5.5 announcement, and download the developer build for free right now.
In this post, I’m going to demonstrate the geospatial search capabilities of Couchbase Full Text Search by creating a web-based UI that performs searches. Whenever I think of geospatial searches, I think about Yelp, which is great at helping me find restaurants in a specific area.
So I’m going to have a little fun and create a very bare-bones version of Yelp, but only for hotels.
If you want to follow along, the full source code is available on Github.
Getting set up
Here are the steps I took to create a new project before I started writing code.
-
At the command line:
dotnet new aurelia
. This assumes that you have .NET Core installed. Note that Geospatial Search is not a .NET-only feature: you can use it with the other Couchbase SDKs like Node.js, Java, etc. It also assumes that you’ve installed a SPA template for Aurelia. You can also go with Angular or React if you’d like, but I really like Aurelia, and I think you should give it a chance. -
The above command will create a shell of an ASP.NET Core project. In this blog post, I’m not going to use Razor. I’m just using ASP.NET as a backend for REST API endpoints.
-
npm install aurelia-google-maps
. You don’t have to use this, but the aurelia-google-maps plugin will make it easy for me to interact with Google Maps in my app. -
I opened this project in Visual Studio 2017. I added Couchbase.Extensions.DependencyInjection with NuGet. You don’t have to use this extension but it makes things easier.
-
I installed Couchbase Server 5.5, including the Full Text Search service. I setup the travel-sample bucket. I created a user "matt" with full access to that bucket.
Create a Geospatial Index
Before building the ASP.NET backend, we need to create a geospatial index in Couchbase Server. Once you log in, click "Search" on the menu (it’s under "Workbench"). Click "Add Index" to get started.
I named my index "mygeoindex". I selected travel-sample as the bucket to index.
In "Type Mappings", I uncheck the default. I add a new type mapping with a type name of "hotel". Every hotel document in "travel-sample" has a type with a value of "hotel". Check the "only index specified fields" box.
I’m going to add two child fields. One is "geo", which contains the geospatial coordinates inside a hotel document. Make sure to select "geopoint" as the type. The other is "name", which will be the name of the hotel. I choose to "store" each of these: it will make the index larger, but I can avoid a secondary lookup if I store the information in the index.
Important Note: There is a bug (NCBC-1651) in the current release of the .NET SDK that will cause an error if you try to read from a geopoint field. In the code samples, I’ve created a workaround: I don’t actually get the geo & name fields from the search index. I instead use the document key returned by search to make a secondary "get" call and get the full document. Keep in mind this is still a technique you may want to consider if you want to keep the size of your index down. This bug has already been fixed and will be in a future release. Such is the peril of being on the cutting edge!
That’s all there is to it. Click "Create Index". Watch the "indexing progress" on the next screen until it gets to 100% (it should not take very long, assuming you remembered to uncheck "default").
ASP.NET Core REST Endpoints
Next, let’s move over to ASP.NET. I’ll create two endpoints. One endpoint will demonstrate the bounding box search method, and the other will demonstrate the distance search method.
I’ll need a Couchbase bucket object to execute the queries. Follow the examples in my blog post about dependency injection or check out the source code on Github if you’ve never done this before.
Bounding Box
A "bounding box" search means that you define a box on a map, and you want to search for points of interest that are inside of that box. You only need two points to define a box: the top right corner coordinates and the bottom left corner coordinates. (Coordinates are latitude and longitude).
To create a bounding box geospatial query, use the GeoBoundingBoxQuery
class available in the .NET SDK. I’ll do this inside of a POST method with the above BoxSearch
class as a parameter.
[Route("api/Box")]
[HttpPost]
public IActionResult Box([FromBody] BoxSearch box)
{
var query = new GeoBoundingBoxQuery();
query.TopLeft(box.LongitudeTopLeft, box.LatitudeTopLeft);
query.BottomRight(box.LongitudeBottomRight, box.LatitudeBottomRight);
var searchParams = new SearchParams()
// .Fields("geo", "name") // omitting because of bug NCBC-1651
.Limit(10)
.Timeout(TimeSpan.FromMilliseconds(10000));
var searchQuery = new SearchQuery
{
Query = query,
Index = "mygeoindex",
SearchParams = searchParams
};
var results = _bucket.Query(searchQuery);
// ... snip ...
All I need to return from this endpoint is a list of the results: each hotel’s coordinates and the hotel’s name & location. I created a GeoSearchResult
class for this.
public class GeoSearchResult
{
public double Latitude { get; set; }
public double Longitude { get; set; }
public InfoWindow InfoWindow { get; set; }
}
public class InfoWindow
{
public string Content { get; set; }
}
I’ve constructed this class to match the Google Maps plugin that I’ll be using later.
Finally, I’ll use this class to return some results from the endpoint.
// ... snip ...
var list = new List<GeoSearchResult>();
foreach (var hit in results.Hits)
{
// *** this part shouldn't be necessary
// the geo and name should come with the search results
// but there's an SDK bug NCBC-1651
var doc = _bucket.Get<dynamic>(hit.Id).Value;
// ****************
list.Add(new GeoSearchResult
{
Latitude = doc.geo.lat,
Longitude = doc.geo.lon,
InfoWindow = new InfoWindow
{
Content = doc.name + "<br />" +
doc.city + ", " +
doc.state + " " +
doc.country
}
});
}
return Ok(list);
}
Distance Search
A "distance" search is another way to perform geospatial queries. This time, instead of a box, it will be more like a circle. You supply a single coordinate, and a distance. The distance will be the radius from that point.
public class PointSearch
{
public double Latitude { get; set; }
public double Longitude { get; set; }
public int Distance { get; set; }
// miles is being assumed as the unit
public string DistanceWithUnits => Distance + "mi";
}
I’m defaulting it to miles, but certainly you can use kilometers instead, or present the option in the UI.
The endpoint will be very similar to the bounding box endpoint, except that it uses GeoDistanceQuery
.
[Route("api/Point")]
[HttpPost]
public IActionResult Point([FromBody] PointSearch point)
{
var query = new GeoDistanceQuery();
query.Latitude(point.Latitude);
query.Longitude(point.Longitude);
query.Distance(point.DistanceWithUnits);
var searchParams = new SearchParams()
// .Fields("geo", "name") // omitting because of bug NCBC-1651
.Limit(10)
.Timeout(TimeSpan.FromMilliseconds(10000));
var searchQuery = new SearchQuery
{
Query = query,
Index = "mygeoindex",
SearchParams = searchParams
};
var results = _bucket.Query(searchQuery);
var list = new List<GeoSearchResult>();
foreach (var hit in results.Hits)
{
// *** this part shouldn't be necessary
// the geo and name should come with the search results
// but there's an SDK bug NCBC-1651
var doc = _bucket.Get<dynamic>(hit.Id).Value;
// ****************
list.Add(new GeoSearchResult
{
Latitude = doc.geo.lat,
Longitude = doc.geo.lon,
InfoWindow = new InfoWindow
{
Content = doc.name + "<br />" +
doc.city + ", " +
doc.state + " " +
doc.country
}
});
}
return Ok(list);
}
At this point, you can start testing these endpoint with Postman or Fiddler if you’d like. But it will be so much nice to see this on a map.
Auerlia and Google Maps
In Aurelia, I’ve created two components: geosearchbox and geosearchpoint.
Each of them will have a Google Maps component that the user can interact with. These maps will be centered on San Francisco, because that’s where a lot of the hotels in "travel-sample" are located.
Bounding Box search component
The google-map`
component has a map-click.delegate that will will fire whenever the users clicks on the map. In geosearchbox.html:
<google-map
if.bind="markers"
map-click.delegate="clickMap($event)"
latitude="37.780986253433895"
longitude="-122.45291600632277"
zoom="12"
markers.bind="markers">
</google-map>
markers
is simply an array containing coordinates of search results that should appear on the map. Initially it will be empty.
When the user first clicks the map, this will set the first coordinate (top left) in the form. In geosearchbox.ts:
public clickMap(event : any) {
var latLng = event.detail.latLng,
lat = latLng.lat(),
lng = latLng.lng();
// only update top left if it hasn't been set yet
// or if bottom right is already set
if (!this.longitudeTopLeft || this.longitudeBottomRight) {
this.longitudeTopLeft = lng;
this.latitudeTopLeft = lat;
this.longitudeBottomRight = null;
this.latitudeBottomRight = null;
} else {
this.longitudeBottomRight = lng;
this.latitudeBottomRight = lat;
}
}
Then, click another spot on the map. This will set the second coordinate (bottom right).
My implementation is very bare bones. No fancy graphics and no validation of the second coordinate being to the bottom right of the first. The fields on a form will simply be populated with the latitude and longitude. In geosearchbox.html:
<p>
Bounding box search:
<br />
Latitude (top left):
<input type="text" value="${ latitudeTopLeft }" />
Longitude (top left):
<input type="text" value="${ longitudeTopLeft }" />
<br />
Latitude (bottom right):
<input type="text" value="${ latitudeBottomRight }" />
Longitude (bottom right):
<input type="text" value="${ longitudeBottomRight }" />
<br />
<input
if.bind="latitudeTopLeft && latitudeBottomRight"
click.trigger="searchClick()"
type="button"
name="search"
value="Search" />
</p>
Once you’ve selected two coordinates, a search button will appear. Click that to post these coordinates to the endpoint created earlier, and it will trigger the searchClick()
method as seen in geosearchbox.ts:
public searchClick() {
let boxSearch = {
latitudeTopLeft: this.latitudeTopLeft,
longitudeTopLeft: this.longitudeTopLeft,
latitudeBottomRight: this.latitudeBottomRight,
longitudeBottomRight: this.longitudeBottomRight
};
console.log("POSTing to api/Box: " + JSON.stringify(boxSearch));
this.http.fetch('api/Box', { method: "POST", body: json(boxSearch) })
.then(result => result.json() as Promise<any[]>)
.then(data => {
this.markers = data;
});
}
When Aurelia, Google Maps, ASP.NET Core, and Couchbase all work together, it looks like this:
Distance Search
Implementing the "distance" geostatial query will be similar to the bounding box UI. This time, you only need to click a single point on the map. But, you will need to type in a distance (in miles).
The google-map
component will look identical. The clickMap
function is different:
public clickMap(event: any) {
var latLng = event.detail.latLng,
lat = latLng.lat(),
lng = latLng.lng();
this.longitude = lng;
this.latitude = lat;
}
Specify a distance (in miles), and then click 'search' to make a POST request to the endpoint we wrote earlier.
geosearchbox.html:
<p>
Distance search:
<br />
Latitude: <input type="text" value="${ latitude }" />
Longitude: <input type="text" value="${ longitude }" />
<br />
Distance (miles): <input type="text" value="${ distance }" />
<br />
<input if.bind="latitude" click.trigger="searchClick()" type="button" name="search" value="Search" />
</p>
geosearchbox.ts:
public searchClick() {
let pointSearch = {
latitude: this.latitude,
longitude: this.longitude,
distance: this.distance
};
console.log("POSTing to api/Point: " + JSON.stringify(pointSearch));
this.http.fetch('api/Point', { method: "POST", body: json(pointSearch) })
.then(result => result.json() as Promise<any[]>)
.then(data => {
this.markers = data;
});
}
}
Below is a clip of the search in motion. Note how the results change as I move the coordinate around.
Summary
With Couchbase’s built-in geospatial indexing and search feature, all the math and the searching is delegated to the Couchbase Data Platform. So you can focus on building a killer UI (better than mine anyway) and rock-solid business logic.
Be sure to check out the documentation for a complete overview of the geospatial capabilities of Couchbase.
If you need help or have questions, please check out the Couchbase Server forums, and if you have any questions about the Couchbase .NET SDK, check out the .NET SDK forums.
If you’d like to get in touch with me, please leave a comment or find me on Twitter @mgroves.
Swashbuckle is a handy library to easily bring Swagger support to your ASP.NET Core (or ASP.NET) application. It is especially handy when developing an HTTP based API. It creates a form of interactive documentation based on the OpenAPI Specification.
Before diving into Swashbuckle: Merry Christmas! This blog is being posted on December 25th, 2017. It’s the final post of the very first C# Advent Calendar. Please check out the other 24 posts in the series! This event has gone so well, that I’m already planning on doing it again in 2018. Thank you, again, to everyone who participated (whether you are a writer or you’ve just been following along).
The full source code used in this example is available on Github.
ASP.NET Core HTTP API
I’m going to assume some level of familiarity with ASP.NET Core and creating a REST API. Here’s an example of a GET and a POST. These endpoints are reading/writing from a JSON text file (in a way that is probably not thread-safe and definitely not efficient, but it’s fine for this example).
public class ValuesController : Controller
{
[HttpGet]
[Route("api/teams")]
public IActionResult GetTeams()
{
var jsonFile = System.IO.File.ReadAllText("jsonFile.json");
var teams = JsonConvert.DeserializeObject<List<Team>>(jsonFile);
return Ok(teams);
}
[HttpPost]
[Route("api/team")]
public IActionResult PostTeam([FromBody]Team team)
{
var jsonFile = System.IO.File.ReadAllText("jsonFile.json");
var teams = JsonConvert.DeserializeObject<List<Team>>(jsonFile);
teams.Add(team);
System.IO.File.WriteAllText("jsonFile.json",JsonConvert.SerializeObject(teams));
return Ok(team);
}
// etc...
To try out the GET endpoint, the simplest thing I can do is open a browser and view the results. But to try out the POST endpoint, I need something else. I could install Postman or Fiddler (and you should). Here’s how that would look.
Postman is great for interacting with endpoints, but Postman alone doesn’t really tell us anything about the endpoint or the system as a whole. This is where Swagger comes in.
Swagger
Swagger is a standard way to provide specifications for endpoints. Usually, that specification is automatically generated and then used to generate an interactive UI.
We could write the Swagger spec out by hand, but fortunately ASP.NET Core provides enough information to generate a spec for us. Look at the PostTeam
action above. Just from reading that we know:
-
It expects a POST
-
The URL for it is
/api/team
-
There’s a
Team
class that we can look at to see what kind of body is expected
From that, we could construct a Swagger spec like the following (I used JSON, you can also use YAML).
{
"swagger": "2.0",
"info": { "version": "v1", "title": "Sports API" },
"basePath": "/",
"paths": {
"/api/team": {
"post": {
"consumes": ["application/json"],
"parameters": [{
"name": "team",
"in": "body",
"required": false,
"schema": { "$ref": "#/definitions/Team" }
}]
}
}
},
"definitions": {
"Team": {
"type": "object",
"properties": {
"name": { "type": "string" },
"stadiumName": { "type": "string" },
"sport": { "type": "string" }
}
}
}
}
But why on earth would you want to type that out? Let’s bring in a .NET library to do the job. Install Swashbuckle.AspNetCore with NuGet (there’s a different package if you want to do this with ASP.NET).
You’ll need to add a few things to Startup.cs
:
In the ConfigureServices
method:
services.AddSwaggerGen(c =>
{
c.SwaggerDoc("v1", new Info { Title = "Sports API", Version = "v1"});
});
In the Configure
method:
app.UseSwagger();
Aside: With ASP.NET, NuGet actually does all this setup work for you.
Once you’ve done this, you can open a URL like http://localhost:9119/swagger/v1/swagger.json
and see the generated JSON spec.
Swagger UI with Swashbuckle
That spec is nice, but it would be even nicer if we could use the spec to generate a UI.
Back in the Configure
method, add this:
app.UseSwaggerUI(c =>
{
c.SwaggerEndpoint("/swagger/v1/swagger.json", "Sports API v1");
});
Now, open your site and go to /swagger
:
Some cool things to notice:
-
Expand/collapse by clicking the URL of an endpoint (note that you must use
Route
attributes for Swashbuckle to work with ASP.NET Core). -
"Try it out!" buttons. You can execute GET/POST right from the browser
-
The "parameter" of the POST method. Not only can you paste in some content, but you get an example value that acts like a template (just click it).
Giving some swagger to your Swagger
Swagger and Swashbuckle have done a lot with just a little bit. It can do even more if we add a little more information in the code.
-
Response: The
ProducesResponseType
attribute will let Swagger know what the response will look like (this is especially useful if you are usingIActionResult
and/or an endpoint could return different types in different situations). -
Comments: If you are using XML comments, you can have these included with the Swagger output.
services.AddSwaggerGen(c =>
{
c.SwaggerDoc("v1", new Info { Title = "Sports API", Version = "v1" });
var filePath = Path.Combine(PlatformServices.Default.Application.ApplicationBasePath, "swashbuckle-example.xml");
c.IncludeXmlComments(filePath);
});
(Also make sure you XML Documentation output for your project enabled)
Here’s an example of a GetTeams
method with both XML comments and ProducesResponseType
:
/// <summary>
/// Gets all the teams stored in the file
/// </summary>
/// <remarks>Baseball is the best sport</remarks>
/// <response code="200">List returned succesfully</response>
/// <response code="500">Something went wrong</response>
[HttpGet]
[Route("api/teams2")]
[ProducesResponseType(typeof(Team), 200)]
public IActionResult GetTeams2()
{
var jsonFile = System.IO.File.ReadAllText("jsonFile.json");
var teams = JsonConvert.DeserializeObject<List<Team>>(jsonFile);
return Ok(teams);
}
-
Customize your info: there’s more to the
Info
class than just Title and Version. You can specify a license, contact, etc.
services.AddSwaggerGen(c =>
{
c.SwaggerDoc("v1", new Info
{
Title = "Sports API",
Version = "v1",
Description = "An API to list and add sports teams",
TermsOfService = "This is just an example, not for production!",
Contact = new Contact
{
Name = "Matthew Groves",
Url = "https://crosscuttingconcerns.com"
},
License = new License
{
Name = "Apache 2.0",
Url = "http://www.apache.org/licenses/LICENSE-2.0.html"
}
});
var filePath = Path.Combine(PlatformServices.Default.Application.ApplicationBasePath, "swashbuckle-example.xml");
c.IncludeXmlComments(filePath);
});
Here’s a screenshot of the UI that has all three of the above enhancements: response type, XML comments, and more customized info.
Summary
Working on HTTP-based APIs? Bring Swashbuckle and Swagger into your life!
More resources:
-
I recorded a couple of videos on getting started with Couchbase that feature Swashbuckle. Check out ASP.NET with Couchbase: Getting Started and ASP.NET Core with Couchbase: Getting Started
-
Swashbuckle for ASP.NET (Github)
-
Swashbuckle for ASP.NET Core (Github)
Thanks again for reading the 2017 C# Advent!
This is a repost that originally appeared on the Couchbase Blog: ASP.NET Core with Couchbase: Getting Started.
ASP.NET Core is the newest development platform for Microsoft developers. If you are looking for information about plain old ASP.NET, check out ASP.NET with Couchbase: Getting Started.
ASP.NET Core Tools to Get Started
The following video will take you from having no code to having an HTTP REST API that uses Couchbase Server, built with ASP.NET Core.
These tools are used in the video:
-
Couchbase Server 5.0 Community Edition (Enterprise Edition will also work)
-
ASP.NET Core 2.0
-
Swagger (provided by Swashbuckle.AspNetCore)
Getting Started Video
In the video, I touch quickly on Scan Consistency. For more details on that, check out the Scan Consistency documentation or read a blog post that I wrote introducing AtPlus, which also covers the other types of Scan Consistency.
Summary
This video gives you the absolute minimum to get started with Couchbase by walking you through a simple CRUD application.
If you have any questions, please leave a comment. Or, you can always ask me questions on Twitter @mgroves.