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262 lines
12 KiB
Markdown
<!-- START doctoc generated TOC please keep comment here to allow auto update -->
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## Table Of Contents
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- [Subscribing to External Data](#subscribing-to-external-data)
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- [There Can Be Only One!!](#there-can-be-only-one)
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- [Components Don't Know, Don't Care](#components-dont-know-dont-care)
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- [A 2nd Source](#a-2nd-source)
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- [Via A Subscription](#via-a-subscription)
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- [The Subscription Handler's Job](#the-subscription-handlers-job)
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- [Some Code](#some-code)
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- [Any Good?](#any-good)
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- [Warning: Undo/Redo](#warning-undoredo)
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- [Query De-duplication](#query-de-duplication)
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- [Thanks To](#thanks-to)
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- [The Alternative Approach](#the-alternative-approach)
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- [Absolutely Never Do This](#absolutely-never-do-this)
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<!-- END doctoc generated TOC please keep comment here to allow auto update -->
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## Subscribing to External Data
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In [Talking To Servers](Talking-To-Servers.md) we learned how to
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communicate with servers using both pure and effectful handlers.
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This is great, but what if you want to
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query external data using subscriptions the
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same way you query data stored in `app-db`? This tutorial will show you how.
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### There Can Be Only One!!
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`re-frame` apps have a single source of data called `app-db`.
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The `re-frame` README asks you to imagine `app-db` as something of an in-memory database. You
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query it (via subscriptions) and transactionally update it (via event handlers).
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### Components Don't Know, Don't Care
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Components never know the structure of your `app-db`, much less its existence.
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Instead, they `subscribe`, declaratively, to
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data, like this `(subscribe [:something "blah"])`, and that allows Components to
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obtain a stream of updates to "something", while knowing nothing about the source of the data.
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### A 2nd Source
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All good but ... SPAs are seldom completely self contained data-wise.
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There's a continuum between apps which are 100% standalone data-wise,
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and those where remote data is utterly central to the app's function.
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In this page, we're exploring the remote-data-centric end of this continuum.
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And just to be clear, when I'm talking about remote data, I'm thinking of data
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luxuriating in remote databases like firebase, rethinkdb, PostgreSQL, Datomic, etc
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- data sources that an app must query and mutate.
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So, the question is: how would we integrate this kind of remote data into an app when
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re-frame seems to have only one source of data: `app-db`?
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How do we introduce a second or even third source of data? How should we `subscribe`
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to this remote data, and how would we `update` it?
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By way of explanation, let's make the question specific: how could we wire up a
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Component which displays a collection of `items`,
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when those items come from a remote database?
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In your mind's eye, imagine this kind of query against that remote database:
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`select id, price, description from items where type="see through"`.
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### Via A Subscription
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In `re-frame`, Components always obtain data via a subscription. Always.
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So, our Component which shows items is going to
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```clj
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(let [items (re-frame/subscribe [:items "see through"]) ...
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```
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and the subscription handler will deliver them.
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Which, in turn, means our code must have a subscription handler defined:
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```clj
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(re-frame/reg-sub
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:items
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(fn [db [_ item-type]
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...))
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```
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Which is fine ... except we haven't really solved this problem yet, have we?
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We've just transferred
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the problem away from the Component and into the subscription handler?
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Well, yes, we have, and isn't that a fine thing!! That's precisely what we want
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from our
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subscription handlers ... to manage how the data is sourced ... to hide that from
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the Component.
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### The Subscription Handler's Job
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Right, so let's write the subscription handler.
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There'll be code in a minute but, first, let's describe how the subscription handler
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will work:
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1. Upon being required to provide items, it has to issue
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a query to the remote database. Perhaps this will be done via
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a RESTful GET. Or via a firebase connection. Or by pushing a JSON
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representation of the query down a websocket. Something. And it is the
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subscription handler's job to know how it is done.
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2. This query be async - with the results arriving sometime "later". And when they
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eventually arrive, the handler must organise for the query results to be placed into `app-db`,
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at some known, particular path. In the meantime, the handler might want to ensure that the absence of
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results is also communicated to the Component, allowing it to display "Loading ...".
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[The Nine States of Design](https://medium.com/swlh/the-nine-states-of-design-5bfe9b3d6d85#.j52018nod)
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has some useful information on designing your application for different states that your data might be in.
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3. The subscription handler must return something to the Component. It should give back a
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`reaction` to that known, particular path within `app-db`, so that when the query results
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eventually arrive, they will flow through into the Component for display.
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4. The subscription handler will detect when the Component is destroyed and no longer requires
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the subscription. It will then clean up, getting rid of those now-unneeded items, and
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sorting out any stateful database connection issues.
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Notice what's happening here. In many respects, `app-db` is still acting as the single source of data.
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The subscription handler is organising for the right remote data to "flow" into `app-db` at a known,
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particular path, when it is needed by a Component. And, equally, for this data to be cleaned up when it
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is no longer required.
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### Some Code
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Enough fluffing about with words, here's a code sketch for our subscription handler:
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```clj
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(re-frame/reg-sub-raw
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:items
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(fn [app-db [_ type]]
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(let [query-token (issue-items-query!
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type
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:on-success #(re-frame/dispatch [:write-to [:some :path]]))]
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(reagent/make-reaction
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(fn [] (get-in @app-db [:some :path] []))
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:on-dispose #(do (terminate-items-query! query-token)
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(re-frame/dispatch [:cleanup [:some :path]]))))))
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```
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A few things to notice:
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1. We are using the low level `reg-sub-raw` to register our handler (and not the more normal `reg-sub`)
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so we can get an `:on-dispose` callback when the subscription is no longer needed.
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[See the `reg-sub-raw` docs at the end of this tutorial](SubscriptionFlow.md)
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2. You have to write `issue-items-query!`. Are you making a Restful GET?
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Are you writing JSON packets down a websocket? The query has to be made.
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3. We do not issue the query via a `dispatch` because, to me, it isn't an event. But we most certainly
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do handle the arrival of query results via a `dispatch` and associated event handler. That to me
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is an external event happening to the system. The event handler can curate the arriving data in
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whatever way makes sense. Maybe it does nothing more than to `assoc` into an `app-db` path,
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or maybe this is a rethinkdb changefeed subscription and your event handler will have to collate
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the newly arriving data with what has previously been returned. Do what
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needs to be done in that event handler, so that the right data will be put into the right path.
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3. We use Reagent's `make-reaction` function to create a reaction which will return
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that known, particular path within `app-db` where the query results are to be placed.
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4. We use the `on-dispose` callback on this reaction to do any cleanup work
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when the subscription is no longer needed. Clean up `app-db`? Clean up the database connection?
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### Any Good?
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It turns out that this is a surprisingly flexible and clean approach. And pretty damn obvious once
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someone points it out to you (which is a good sign). There's a lot to like about it.
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For example, if you are using rethinkdb, which supports queries which yield "change feeds" over time,
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rather than a one-off query result, you have to actively close such queries when they are no longer needed.
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That's easy to do in our cleanup code.
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We can source some data from both PostgreSQL and firebase in the one app, using the same pattern.
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All remote data access is done in the same way.
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Because query results are `dispatched` to an event handler, you have a lot of flexibility
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about how you process them.
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The whole set of pieces can be arranged and tweaked in many ways. For example,
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with a bit of work, we could keep a register of all currently used queries.
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And then, if ever we noticed that the app had gone offline,
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and then back online, we could organise to reissue all the queries again
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(with results flowing back into
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the same known paths), avoiding stale results.
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Also, notice that putting ALL interesting data into `app-db` has nice
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flow on effects. In particular, it means it is available to event handlers,
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should they need it when servicing events (event handlers get `db` as a parameter, right?).
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If this item data was held in a separate place, other than `app-db`,
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it wouldn't be available in this useful way.
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### Warning: Undo/Redo
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This technique caches remote data in `app-db`. Be sure to exclude this
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cache area from any undo/redo operations
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using [the available configuration options](https://github.com/Day8/re-frame-undo#harvesting-and-re-instating)
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### Query De-duplication
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In v0.8.0 of re-frame onwards, subscriptions are automatically de-duplicated.
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In prior versions, in cases where the same query is simultaneously issued
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from multiple places, you'd want to
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de-duplicate the queries. One possibility is to do this duplication
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in `issue-items-query!` itself. You can
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`count` the duplicate queries and only clear the data when that count goes to 0.
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### Thanks To
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@nidu for his valuable review comments and insights
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## The Alternative Approach
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Event handlers do most of the heavy lifting within re-frame apps.
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When buttons get clicked, or items get dragged 'n dropped, or tabs get
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chosen, they know how to transition the app from one state
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to the next. That's their job. And, when they make such
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a transition, it is quite reasonable to expect them to ALSO
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source the data needed in the new state.
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So there's definitely a case for NOT using the approach outlined
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above and, instead, making event handlers source data and
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plonk it into a certain part of `app-db` for use by subscriptions.
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In effect, there's definitely an argument that
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subscriptions should only ever source from `app-db` BUT that it is
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event handlers which start and stop the sourcing of data from
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remote places.
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Sorry, but you'll have to work out which of these two variations
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works best for you.
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Within this document the first alternative has been given more word count
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only because there's a few more tricks to make it work, not because it
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is necessarily preferred.
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## Absolutely Never Do This
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Sometimes, because of their background with other JS frameworks,
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new re-framians feel like the Components themselves (the views)
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should have the responsibility of sourcing the data they need.
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They then use React lifecycle methods like `:component-did-mount`
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to load remote data.
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I believe this is absolutely the wrong way to do it.
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In re-frame, we want views to be as simple and dumb as possible. They turn
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data into HTML and nothing more. they absolutely do not do imperative stuff.
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Use one of the two alternatives described above.
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***
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Previous: [Talking to Servers](Talking-To-Servers.md)
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Up: [Index](README.md)
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