diff --git a/source/_drafts/the-data-store.md b/source/_drafts/the-data-store.md index 7bd71df..179d42a 100644 --- a/source/_drafts/the-data-store.md +++ b/source/_drafts/the-data-store.md @@ -42,13 +42,27 @@ The `OnModelCreating` overridden method (line 214) is called when the runtime fi Let's start out by taking a look at `History.configureEF` (line 50). Line 53 says that we're going to the table `history`. This seems to be a no-brainer, but EF Core would (by convention) be expecting a `History` table; since PostgreSQL uses a different syntax for case-sensitive names, these queries would look like `SELECT ... FROM "History" ...`, resulting in a nice "relation does not exist" error. Line 54 defines our compound key (`requestId` and `asOf`). Lines 55-57 define certain properties of the entity as required; if we try to store an entity where these fields are not set, the runtime will raise an exception before even trying to take it to the database. _(F#'s non-nullability makes this a non-issue, but it still needs to be defined to match the database.)_ Line 58 may seem to do nothing, but what it does is make the `text` property immediately visible to the model builder; then, we can define an `OptionConverter`2 for it, which will translate between `null` and `string option` (`None` = `null`, `Some [x]` = `[x]`). _(Lines 60-61 are left over from when I was trying to figure out why line 62 was raising an exception, leading to the addition of line 58; they could safely be remove, and will be for a post-1.0 release.)_ -`History` is the most complex configuration, but let's take a peek at `Request.configureEF` (line 126) to see one more interesting technique. Lines 107-110 define the `history` and `notes` collections on the `Request` type; lines 138-145 define the one-to-many relationship (without a foreign key entity in the child types). Note the casts to `IEnumerable` (lines 138 and 142) and `obj` (lines 140 and 144); while F# is good about inferring types in a lot of cases, these functions are two places it is not. We can use the `:>` operator for the cast, because these types are part of the inheritance chain. _(The `:?>` operator is used for potentially unsafe cases.)_ +`History` is the most complex configuration, but let's take a peek at `Request.configureEF` (line 126) to see one more interesting technique. Lines 107-110 define the `history` and `notes` collections on the `Request` type; lines 138-145 define the one-to-many relationship (without a foreign key entity in the child types). Note the casts to `IEnumerable` (lines 138 and 142) and `obj` (lines 140 and 144); while F# is good about inferring types in a lot of cases, these functions are two places it is not. We can use the `:>` operator for the cast, because these types are part of the inheritance chain. _(The `:?>` operator is used for potentially unsafe casts.)_ ## Reading and Writing Data +EF Core uses the "unit of work" pattern with its `DbContext` class. Each instance maintains knowledge of the entities it's loaded, and does change tracking against those entities, so it knows what commands to issue when `.SaveChanges()` is called. It doesn't do this for free, though, and while EF Core does this much more efficiently than Entity Framework proper, F# record types do not support mutation; given `req` is a `Request` instance, `{ req with showAfter = 123456789L }` returns a **new** `Request` instance. + +This is the problem whose solution is enabled by lines 227-233 in Data.fs. We can manually register an instance of an entity as either added or modified, and when we call `.SaveChanges()` (or `.SaveChangesAsync()`), the runtime will generate the SQL to update the data store accordingly. This also allows us to use `.AsNoTracking()` in our queries (lines 250, 258, 265, and 275), which means that the resultant entities will not be registered with the change tracker _(which saves overhead)_. Notice that we don't specify that on line 243; since `Journal` is defined as a `DbQuery` instead of a `DbSet`, we get change-tracking-avoidance for free. + +Generally speaking, the perferred method of writing queries against a `DbContext` instance is to define extension methods against it. These are `static` by default, and they enable the context to be as lightweight as possible, while extending it when necessary. However, since this context is so small, we've created 6 methods on the context that we use to obtain data. + +If you've been reading along with the tour, we have already seen a few API handler functions ([mpj:Handlers.fs][Handlers.fs]) that use the data context. Line 137 has the handler for `/api/journal`, the endpoint to retrieve a user's active requests. It uses `.JournalByUserId()`, defined in Data.fs line 242, whose signature is `string -> JournalRequest seq`. (The latter is an F# alias for `IEnumerable`.) Back in the handler, we use `db ctx` to get the context (more on that below), then call the method; we're piping the output of `userId ctx` into it, so it gets its lone parameter from the pipe, then its output is piped to the `asJson` function we discussed [as part of the API][api]. + +Line 192, the handler for `/api/request/[id]/history`, demonstrates both inserting and updating data. We attempt to retrieve the request by its ID and the user ID; if that fails, we return a 404. If it succeeds, though, we add a history entry (lines 201-207), and optionally update the `showAfter` field of the request based on its recurrence. Finally, the call on line 212 commits the changes for this particular instance. Since the `.SaveChanges[Async]()` methods return the number of records affected, we cannot use the `do!` operator for this; F# makes you explicitly ignore values you aren't either returning or assigning to a name. However, defining `_` as a parameter or name demonstrates that we realize there is a value to be had, we just are not going to do anything with it. + +## Getting a `DbContext` + +Since Giraffe sits atop ASP.NET Core, we use the same technique; we use the `.AddDbContext()` extension method on the `IServiceCollection` interface, and assign it when we set up the dependency injection container. In our case, it's in Program.fs ([mpj:Program.fs][Program.fs]) line 50, where we also direct it to use a PostgreSQL connection defined by the connection string "mpj". (This comes from the unified configuration built from `appsettings.json` and `appsettings.[Environment].json`.) If we look back at Handlers.fs, lines 45-47, we see the definition of the `db ctx` call we used earlier. We're using the Giraffe-provided `GetService<'T>()` extension method to return this instance. +

 

-wrap +Our tour is nearing its end, but we still have a few stops to go. Next time, we'll look at how we generated documentation to tell people how to use this app. --- @@ -64,6 +78,8 @@ wrap [data.go]: https://github.com/bit-badger/myPrayerJournal/blob/d0ea7cf3c631512ea6b3afba61a25c83aaded6c8/src/api/data/data.go#L307 "api/data/data.go (Line 307) | myPrayerJournal | GitHub" [sql]: https://github.com/bit-badger/myPrayerJournal/tree/1.0.0/src/sql "sql | myPrayerJournal | GitHub" [Data.fs]: https://github.com/bit-badger/myPrayerJournal/blob/1.0.0/src/api/MyPrayerJournal.Api/Data.fs "api/Data.fs | myPrayerJournal | GitHub" - +[Handlers.fs]: https://github.com/bit-badger/myPrayerJournal/blob/1.0.0/src/api/MyPrayerJournal.Api/Handlers.fs "api/Handlers.fs | myPrayerJournal | GitHub" +[api]: /2018/a-tour-of-myprayerjournal/the-api.html "A Tour of myPrayerJournal: The API | The Bit Badger Blog" +[Program.fs]: https://github.com/bit-badger/myPrayerJournal/blob/1.0.0/src/api/MyPrayerJournal.Api/Program.fs "api/Program.fs | myPrayerJournal | GitHub" [oc-pkg]: https://www.nuget.org/packages/FSharp.EFCore.OptionConverter/ "FSharp.OptionConverter | NuGet" -[oc-post]: https://blog.bitbadger.solutions/2018/f-sharp-options-with-ef-core.html "F# Options with EF Core | The Bit Badger Blog" \ No newline at end of file +[oc-post]: https://blog.bitbadger.solutions/2018/f-sharp-options-with-ef-core.html "F# Options with EF Core | The Bit Badger Blog"