Posts tagged “htmx”


December 7, 2021
  A Tour of myPrayerJournal v3: Conclusion

NOTE: This is the final post in a series; see the introduction for information on requirements and links to other posts in the series.

We’ve gone in depth on several different aspects of this application and the technologies it uses. Now, let’s zoom out and look at some big-picture lessons learned.

What I Liked

Generally speaking, I liked everything. That does not make for a very informative post, though, so here are a few things that worked really well.

Simplification Via htmx

One of the key concepts in a Representational State Transfer (REST) API is that of Hypermedia as the Engine of Application State (HATEOAS). In short, this means that the state of an application is held within the hypermedia that is exchanged between client and server; and, in practice, the server is responsible for altering that state. This is completely different from the JSON API / JavaScript framework model, even if they use GET, POST, PUT, and PATCH properly.

(This is a near over-simplification; the paper that initially proposed these concepts – in much, much more detail – earned its author a doctoral degree.)

The simplicity of this model is great; and, when I say “simplicity,” I am speaking of a lack of complexity, not a naïveté of approach. I was able to remove a large amount of complexity and synchronization from the client/server interactions between myPrayerJournal v2 and v3. State management used to be the most complex part of the application. Now, the most complex part is the HTML rendering; since that is what controls the state, though, this makes sense. I have 25 years of experience writing HTML, and even at its most complex, it simply is not.

LiteDB

This was a very simple application - and, despite its being open for any user with a Google or Microsoft account, I have been the only regular user of the application. LiteDB’s setup was easy, implementation was easy, and it performs really well. I suspect this would be the case with many concurrent users. If the application were to grow, and I find that my suspicion was not borne out by reality, I could create a database file per user, and back up the data directory instead of a specific file. As with htmx, the lack of complexity makes the application easily maintainable.

What I Learned

Throughout this entire series of posts, most of the content would fall under this heading. There are a few things that did not fit into those posts, though.

htmx Support in .NET

I developed Giraffe.Htmx as a part of this effort, and mentioned that I became aware of htmx on an episode of .NET Rocks!. The project I developed is very F#-centric, and uses features of the language that are not exposed in C# or VB.NET. However, there are two packages that work with the standard ASP.NET Core paradigm. Htmx provides server-side support for the htmx request and response headers, similar to Giraffe.Htmx, and Htmx.TagHelpers contains tag helpers for use in Razor, similar to what Giraffe.ViewEngine.Htmx does for Giraffe View Engine. Both are written by Khalid Abuhakmeh, a developer advocate at JetBrains (which generously licensed their tools to this project, and produces the best developer font ever).

While I did not use these projects, I did look at the source, and they look good. Open source libraries go from good to great by people using them, then providing constructive feedback (and pull requests, if you are able).

Write about Your Code

Yes, I’m cheating a bit with this one, as it was one of the takeaways from the v1 tour, but it’s still true. Writing about your code has several benefits:

  • You understand your code more fully.
  • Others can see not just the code you wrote, but understand the thought process behind it.
  • Readers can provide you feedback. (This may not always seem helpful; regardless of its tone, though, thinking through whether the point of their critique is justified can help you learn.)

And, really, knowledge sharing is what makes the open-source ecosystem work. Closed / proprietary projects have their place, but if you do something interesting, write about it!

What Could Be Better

Dove-tailing from the previous section, writing can also help you think through your code; if you try to explain it, and and have trouble, that should serve as a warning that there are improvements to be had. These are the areas where this project has room to get better.

Deferred Features

There were 2 changes I had originally planned for myPrayerJournal v3 that did not get accomplished. One is a new “pray through the requests” view, with a distraction-free next-card-up presentation. The other is that updating requests sends them to the bottom of the list, even if they have not been marked as prayed; this will require calculating a separate “last prayed” date instead of using the “as of” date from the latest history entry.

The migration introduced a third deferred change. When v1/v2 ran in the browser, the dates and times were displayed in the user’s local timezone. With the HTML being generated on the server, though, dates and times are now displayed in UTC. The purpose of the application is to focus the user’s attention on their prayer requests, not to make them have to do timezone math in their head! htmx has an hx-headers attribute that specifies headers to pass along with the request; I plan to use a JavaScript call to set a header on the body tag when a full page loads (hx-headers is inherited), then use that timezone to adjust it back to the user’s current timezone.

That LiteDB Mapping

I did a good bit of tap-dancing in the LiteDB data model and mapping descriptions, mildly defending the design decisions I had made there. The recurrence should be designed differently, and there should be individual type mappings rather than mapping the entire document. Yes, it worked for my purpose, and this project was more about Vue to htmx than ensuring a complete F#-to-LiteDB mapping of domain types. As I implement the features above, though, I believe I will end up fixing those issues as well.


Thank you for joining me on this tour; I hope it has been enjoyable, and maybe even educational.

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November 29, 2021
  A Tour of myPrayerJournal v3: Bootstrap Integration

NOTE: This is the third post in a series; see the introduction for information on requirements and links to other posts in the series.

Many modern Single Page Application (SPA) frameworks include (or have plugins for) CSS transitions and effects. Combined with the speed of not having to do a full refresh, this is one of their best features. One might not think that a framework like htmx, which simply swaps out sections of the page, would have this; but if one were to think that, one would be wrong. Sadly, though, I did not utilize those aspects of htmx while I was migrating myPrayerJournal from v2 to v3; however, I will highlight the htmx way to do this in last section of this post.

myPrayerJournal v2 used a Vue plugin that provided Bootstrap v4 support; myPrayerJournal v3 uses Bootstrap v5. The main motivation I had to remain with Bootstrap was that I liked the actual appearance, and I know how it works. The majority of my “learning” on this project dealt with htmx; I did not want to add a UI redesign to the mix. Before we jump into the implementation, let me briefly explain the framework.

About Bootstrap

Bootstrap was originally called Twitter Bootstrap; it was the CSS framework that Twitter developed in their early iterations. It was, by far, the most popular framework at the time, and it was innovative in its grid layout system. Long before there was browser support for the styles that make layouts much easier to develop, and more responsive to differing screen sizes, Bootstrap’s grid layout and size breakpoints made it easy to build a website that worked for desktop, tablet, or phone. Of course, there is a limit to what you can do with styling, so Bootstrap also has a JavaScript library that augments these styles, enabling the interactivity to which the modern web user is accustomed.

Version 5 of Bootstrap continues this tradition; however, it brings in even more utility classes, and supports Flex layouts as well. It is a mature library that continues to be maintained, and the project’s philosophy seems to be “just enough” - it’s not going to do everything for everyone, but in the majority of cases, it has exactly what the developer needs. It is not a bloated library that needs tree-shaking to avoid a ridiculous download size.

It is, by far, the largest payload in the initial page request:

  • Bootstrap - 48.6 kB (CSS is 24.8 kB; JavaScript is 23.8 kB, deferred until after render)
  • htmx - 11.8 kB
  • myPrayerJournal - 4.4 kB (CSS is 1.2 kB, JavaScript is 3.2 kB)

However, this gets the entire style and script, and allows us to use their layouts and interactive components. But, how do we get that interactivity from the server?

Hooking in to the htmx Request Pipeline

htmx provides several events to which an application can listen. In myPrayerJournal v3, I used htmx:afterOnLoad because I did not need the new content to be swapped in yet when the function fired. There are afterSwap and afterSettle events which will fire once those events have occurred, if you need to defer processing until those are complete.

There are two different Bootstrap script-driven components myPrayerJournal uses; let’s take a look at toasts.

A Toast to Via htmx

Toasts are pop-up notifications that appear on the screen, usually for a short time, then fade out. In some cases, particularly if the toast is alerting the user to an error, it will stay on the screen until the user dismisses it, usually by clicking an “x” in the upper right-hand corner (even if the developer used a Mac!). Bootstrap provides a host of options for their toast component; for our uses, though, we will:

  • Place toasts in the bottom right-hand corner;
  • Allow multiple toasts to be visible at once;
  • Auto-hide success toasts; require others to be dismissed manually.

There are several different aspects that make this work.

The Toaster

Just like IRL toast comes out of a toaster, our toasts need a place from which to emerge. In the prior post, I mentioned that the footer does not get reloaded when a “page” request is made. There is also an element above the footer that also remains across these requests - defined here as the “toaster” (my term, not Bootstrap’s).

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/// Element used to display toasts
let toaster =
div [ _ariaLive "polite"; _ariaAtomic "true"; _id "toastHost" ] [
div [ _class "toast-container position-absolute p-3 bottom-0 end-0"; _id "toasts" ] []
]

This renders two empty divs with the appropriate style attributes; toasts placed in the #toasts div will display as we want them to.

Showing the Toast

Bootstrap provides data- attributes that can make toasts appear; however, since we are creating these in script, we need to use their JavaScript functions. The message coming from the server has the format TYPE|||The message. Let’s look at the showToast function (the largest custom JavaScript function in the entire application):

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const mpj = {
// ...
showToast (message) {
const [level, msg] = message.split("|||")

let header
if (level !== "success") {
const heading = typ => `<span class="me-auto"><strong>${typ.toUpperCase()}</strong></span>`

header = document.createElement("div")
header.className = "toast-header"
header.innerHTML = heading(level === "warning" ? level : "error")

const close = document.createElement("button")
close.type = "button"
close.className = "btn-close"
close.setAttribute("data-bs-dismiss", "toast")
close.setAttribute("aria-label", "Close")
header.appendChild(close)
}

const body = document.createElement("div")
body.className = "toast-body"
body.innerText = msg

const toastEl = document.createElement("div")
toastEl.className = `toast bg-${level === "error" ? "danger" : level} text-white`
toastEl.setAttribute("role", "alert")
toastEl.setAttribute("aria-live", "assertlive")
toastEl.setAttribute("aria-atomic", "true")
toastEl.addEventListener("hidden.bs.toast", e => e.target.remove())
if (header) toastEl.appendChild(header)

toastEl.appendChild(body)
document.getElementById("toasts").appendChild(toastEl)
new bootstrap.Toast(toastEl, { autohide: level === "success" }).show()
},
// ...
}

Here’s what’s going on in the code above:

  • Line 4 splits the level from the message
  • Lines 6-20 (let header) create a header and close button if the message is not a success
  • Lines 22-24 (const body) create the body div with attributes Bootstrap’s styling expects
  • Lines 26-30 (const toastEl) create the div that will contain the toast
  • Line 31 adds an event handler to remove the element from the DOM once the toast is hidden
  • Lines 32 and 34 add the optional header and mandatory body to the toast div
  • Line 35 adds the toast to the page (within the toasts inner div defined above)
  • Line 36 initializes the Bootstrap JavaScript component, auto-hiding on success, and shows the toast

(If you’ve never used JavaScript to create elements that are added to an HTML document, this probably looks weird and verbose; if you have, you look at it and think “well, they’re not wrong…”)

So, we have our toaster, we know how to put bread notifications in it - but how do we get the notifications from the server?

Receiving the Toast

The code to handle this is part of the htmx:afterOnLoad handler:

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htmx.on("htmx:afterOnLoad", function (evt) {
const hdrs = evt.detail.xhr.getAllResponseHeaders()
// Show a message if there was one in the response
if (hdrs.indexOf("x-toast") >= 0) {
mpj.showToast(evt.detail.xhr.getResponseHeader("x-toast"))
}
// ...
})

This looks for a custom HTTP header of X-Toast (all headers are lowercase from that xhr call), and if it’s found, we pass the value of that header to the function above. This check occurs after every htmx network request, so there is nothing special to configure; “page” requests are not the only requests capable of returning a toast notification.

There is one more part; how does the toast get to the browser?

Sending the Toast

The last paragraph gave it away; we set a header on the response. This seems straightforward, and is in most cases; but once again, POST-Redirect-GET (P-R-G) complicates things. Here are the final two lines of the successful path of the request update handler:

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Messages.pushSuccess ctx "Prayer request updated successfully" nextUrl
return! seeOther nextUrl next ctx

If we set a message in the response header, then redirect (remember that XMLHttpRequest handles redirects silently), the header gets lost in the redirect. Here, Messages.pushSuccess places the success message (and return URL) in a dictionary, indexed by the user’s ID. Within the function that renders every result (partial, “page”-like, or full results), this dictionary is checked for a message and URL, and if one exists, it includes it. (If it is returned to the function below, it has already been removed from the dictionary.)

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/// Send a partial result if this is not a full page load (does not append no-cache headers)
let partialStatic (pageTitle : string) content : HttpHandler =
fun next ctx -> backgroundTask {
let isPartial = ctx.Request.IsHtmx && not ctx.Request.IsHtmxRefresh
let! pageCtx = pageContext ctx pageTitle content
let view = (match isPartial with true -> partial | false -> view) pageCtx
return!
(next, ctx)
||> match user ctx with
| Some u ->
match Messages.pop u with
| Some (msg, url) -> setHttpHeader "X-Toast" msg >=> withHxPush url >=> writeView view
| None -> writeView view
| None -> writeView view
}

A quick overview of this function:

  • Line 4 determines if this an htmx boosted request (a “page”-like requests)
  • Line 5 creates a rendering context for the page
  • Line 6 renders the view to a string, calling partial or view with the page rendering context
  • Lines 10-13 are only executed if a user is logged on, and line 12 is the one that appends a message and a new URL

A quick note about line 12: the >=> operator joins Giraffe HttpHandlers together. An HttpHandler takes an HttpContext and the next function to be executed, and returns a Task<HttpContext option> (an asynchronous call that may or may not return a context). If there is no context returned, the chain stops; the function can also return an altered context. It is good practice for an HttpHandler to make a single change to the context; this keeps them simple, and allows them to be plugged in however the developer desires. Thus, the setHttpHeader call adds the X-Toast header, the withHxPush call adds the HX-Push header, and the writeView call sets the response body to the rendered view.

The new URL part does not actually make the browser do anything; it simply pushes the given URL onto the browser’s history stack. Technically, the browser receives the content from the P-R-G as the response to its POST; as we’re replacing the current page, though, we need to make sure the URL stays in sync.

Of note is that not all toasts are this complex. For example, the “cancel snooze” handler return looks like this:

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return! (withSuccessMessage "Request unsnoozed" >=> Components.requestItem requestId) next ctx

…while the withSuccessMessage handler is:

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/// Add a success message header to the response
let withSuccessMessage : string -> HttpHandler =
sprintf "success|||%s" >> setHttpHeader "X-Toast"

No dictionary, no redirect, just a single response that will show a toast.

You made it - the toast section is toast! There is one more interesting interaction, though; that of the modal dialog.

Bootstrap’s implementation of modal dialogs also uses JavaScript; however, for the purposes of the modals used in myPrayerJournal v3, we can use the data- attributes to show them. Here is the view for a modal dialog that allows the user to snooze a request (hiding it from the active list until the specified date); this is rendered a single time on the journal view page:

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div [
_id "snoozeModal"
_class "modal fade"
_tabindex "-1"
_ariaLabelledBy "snoozeModalLabel"
_ariaHidden "true"
] [
div [ _class "modal-dialog modal-sm" ] [
div [ _class "modal-content" ] [
div [ _class "modal-header" ] [
h5 [ _class "modal-title"; _id "snoozeModalLabel" ] [ str "Snooze Prayer Request" ]
button [ _type "button"; _class "btn-close"; _data "bs-dismiss" "modal"; _ariaLabel "Close" ] []
]
div [ _class "modal-body"; _id "snoozeBody" ] [ ]
div [ _class "modal-footer" ] [
button [ _type "button"; _id "snoozeDismiss"; _class "btn btn-secondary"; _data "bs-dismiss" "modal" ] [
str "Close"
]
]
]
]
]

Notice that #snoozeBody is empty; we fill that when the user clicks the snooze icon:

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button [
_type "button"
_class "btn btn-secondary"
_title "Snooze Request"
_data "bs-toggle" "modal"
_data "bs-target" "#snoozeModal"
_hxGet $"/components/request/{reqId}/snooze"
_hxTarget "#snoozeBody"
_hxSwap HxSwap.InnerHtml
] [ icon "schedule" ]

This uses data-bs-toggle and data-bs-target, Bootstrap attributes, to show the modal. It also uses hx-get to load the snooze form for that particular request, with hx-target targeting the #snoozeBody div from the modal definition. Here is how that form is defined:

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/// The snooze edit form
let snooze requestId =
let today = System.DateTime.Today.ToString "yyyy-MM-dd"
form [
_hxPatch $"/request/{RequestId.toString requestId}/snooze"
_hxTarget "#journalItems"
_hxSwap HxSwap.OuterHtml
] [
div [ _class "form-floating pb-3" ] [
input [ _type "date"; _id "until"; _name "until"; _class "form-control"; _min today; _required ]
label [ _for "until" ] [ str "Until" ]
]
p [ _class "text-end mb-0" ] [ button [ _type "submit"; _class "btn btn-primary" ] [ str "Snooze" ] ]
]

Here, the form uses hx-patch to submit the data to the snooze endpoint. The target for the response, though, is #journalItems; this is the element that holds all of the prayer request cards. Snoozing a request will remove it from the active list, so the list needs to be refreshed; this will make that happen.

Look back at the modal definition; at the bottom, there is a “Close” button. We will use this to dismiss the modal once the update succeeds. In the Giraffe handler to snooze a request, here is its return statement:

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return!
(withSuccessMessage $"Request snoozed until {until.until}"
>=> hideModal "snooze"
>=> Components.journalItems) next ctx

Notice that hideModal handler?

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/// Hide a modal window when the response is sent
let hideModal (name : string) : HttpHandler =
setHttpHeader "X-Hide-Modal" name

Yes, it’s another HTTP header! One can certainly get carried away with custom HTTP headers, but their very existence is to communicate with the client (browser) outside of the visible content of the page. Here, we’re passing the name “snooze” to this header; in our htmx:afterOnLoad handler, we’ll consume this header:

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htmx.on("htmx:afterOnLoad", function (evt) {
const hdrs = evt.detail.xhr.getAllResponseHeaders()
// ...
// Hide a modal window if requested
if (hdrs.indexOf("x-hide-modal") >= 0) {
document.getElementById(evt.detail.xhr.getResponseHeader("x-hide-modal") + "Dismiss").click()
}
})

The “Close” button on our modal was given the id of snoozeDismiss; this mimics the user clicking the button, which Bootstrap’s data- attributes handle from there. Of all the design choices and implementations I did in this conversion, this part strikes me as the most “hack”y. However, I did try to hook into the Bootstrap modal itself, and hide it via script; however, it didn’t like initializing a modal a second time, and I could not get a reference to it from the htmx:afterOnLoad handler. Clicking the button works, though, even when it’s done from script.

CSS Transitions in htmx

This post has already gotten much longer than I had planned, but I wanted to make sure I covered this.

  • When htmx requests are in flight, the framework makes it easy to show indicators.
  • I mentioned swapping and settling when discussing the events htmx exposes. The way this is done, CSS transitions will render as expected. They have a host of examples to spark your imagination.

As I was keeping the UI the same, I did not end up using these options; however, their presence demonstrates that htmx is a true batteries-included SPA framework.


Up next, we’ll step away from the front end and dig into LiteDB.

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November 28, 2021
  A Tour of myPrayerJournal v3: The User Interface

NOTE: This is the second post in a series; see the introduction for information on requirements and links to other posts in the series.

If you are a seasoned Single Page Application (SPA) framework developer, you likely think about interactivity in a particular way. Initially, I focused on replacing each interactive piece in isolation. In the end, though, requests for “pages” returned almost everything but the HTML head info and the displayed footer - and I was happy about it. Keep that in mind as I walk you down the path I have already traveled; keep an open mind, and read to the end before forming strong opinions either way.

The $.05 Tour of Pug and Giraffe View Engine

Understanding the syntax of both Pug and Giraffe View Engine will help you if you click any of the source code example links. While a complete explanation of these two templating languages would make this long post much longer than it already is, here are some short examples of their syntax. Using a string variable who with the contents “World”, we will show both languages rendering:

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<p id="example" class="greeting">Hello <strong>World</strong></p>

myPrayerJournal v2 used Pug templates in Vue to render the user interface. Pug uses indentation-sensitive tag/content pairs (or blocks), with JavaScript syntax for attributes, to generate HTML. To generate the example paragraph, the shortest template would look like:

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p.greeting(id="example") Hello #[strong= who]

myPrayerJournal v3 uses Giraffe View Engine, which uses F# lists to generate HTML from a very HTML-looking domain-specific language (DSL). The example paragraph would be generated with:

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p [ _id "example"; _class "greeting" ] [ str "Hello "; strong [] [ who ] ]

Given those examples, let’s dig into the conversion.

The Menu

The menu across the top of the application was one of the first items I needed to convert. The menu needs to be different, depending on whether there is a user logged on or not. Also, if a user is logged on, the menu can still be different; the “Snoozed” menu item only appears if the user has any snoozed requests. The application uses Auth0 to manage users (which is how it is open to Microsoft and Google accounts), and I wanted to preserve this; my requests are tied to the ID provided by Auth0, so that did not need to change.

In the Vue version, the system used Auth0’s SPA library that exposed whether there was a user logged on or not. Also, once a user was logged on, the API sent all the user’s active requests, which included snoozed requests; once this API call returned, the application can turn on the “Snoozed” menu item. In the htmx version, though, this information is all generated on the server. My initial process was to use an hx-get to get the menu HTML snippet, using an hx-trigger of load to fill in this spot of the page when the page was loaded. I also (initially) implemented a custom HTML header to include in responses, and if that header was found, I would trigger a refresh on the menu; the eventual solution included the navbar in “page” refreshes.

(See the Vue “Navigation” component that became the Giraffe View Engine “navbar” function)

“New Page” in htmx

This leads directly into a discussion of how myPrayerJournal is still considered a SPA. In the Vue version, “pages” were Vue Single-File Components (SFCs) under the /components directory. (In the years since myPrayerJournal v1, the default Vue template has changed to place these SFCs under /views, while /components is reserved for shared components.) These view components rendered into a custom component within the main tag (using Vue router’s router-view tag), while the nav component was reactive, based on the user logging on/off and snoozing requests.

In myPrayerJournal v3, “page” views target the #top section element. If the request is for a full page load, the HTML head content is rendered, as is the body‘s footer content; none of these change until a new version of the application is released. If the request is an htmx request, though, the only thing rendered is a new #top section, which includes the navigation bar and the page content. While this does approach a full “page load”, there are some key differences:

  • The page contents are refreshed based on one HTTP request (no extra request or processing required for the navbar);
  • The HTML head content is responsible for most of the large HTTP requests, such as those for JavaScript libraries (and is excluded from non-full-page views);
  • The page footer is not included.

Note the difference between the full view layout and the partial layout. Also, within the application’s request handlers, there is a partial return function that determines whether this is an htmx-initiated page view request (in which case a partial view is returned) or a full page request (which returns the entire template).

Updating the Page Title

One of the most unexpectedly-vexing parts of a SPA is determining how the browser’s title bar will be updated when navigation occurs. (I understand why it’s challenging; what I do not understand is why it took major frameworks so long to devise a built-in way of handling this.) Coming from that world, I had originally implemented yet another custom header, pushing the title from the server, and used a request listener to update the title if the header was present. As I dug in further, though, I learned that htmx will update the document title any time a request payload has an HTML title element in its head. If you look at both layouts in the preceding paragraph, you’ll notice that they include a head element with a title tag. This is how easy it should be, and with htmx, this is how easy it is.

At this point, there is a pattern emerging. The thought process behind an htmx-powered website is much different than a JavaScript-based SPA framework; and, in the majority of cases, it has been less complex. Now, let me contradict what I just said.

POST-Redirect-GET

In myPrayerJournal v2, updating a prayer request followed this flow:

  • Display the edit page, with the request details filled in
  • When the user saved the request, return an empty 200 OK response
  • Using Vue, display a notification, refresh the journal, then re-render the page where the user had been when they clicked “Edit” (there are multiple places from which requests can be edited)

While there are no redirects here, this is the classic traditional-web-application scenario where the “POST-Redirect-GET” (P-R-G) pattern is used. By using this pattern, the “Back” button on the browser still works. If you try to go back to the result of a POST request, the browser will warn you that your action will result in the data being resubmitted (not usually what you want to do). By redirecting, though, the result of a POST becomes a GET, which does not change any data. For traditional web applications, this is the user-friendliest way to handle updates.

In the htmx examples, they show an example of inline editing. This led to my first plan - change the request edit “page” to be a component, where the HTML for the displayed list was replaced by the form, and then the “Save” action returns the new HTML. This requires no P-R-G, as these actions have no effect on the “Back” button. It worked fine, but there were some things that weren’t quite right:

  • New requests needed their own page; I was going to have to duplicate the edit form for the “new” page, and introduce some complexity in determining how to render the results.
  • Some updates required refreshing the list of requests, not just replacing the text and action buttons.

At this point, I was also starting to realize “if you think something is hard to do in htmx, you probably aren’t trying to do it correctly.” So, I decided to try to replicate the “edit page” flow of v2 in v3. Creating the page was easy enough, and I was able to use the returnTo parameter in the function to both provide a “Cancel” button and redirect the user to the right place after saving. Easy, right? Well… Not quite.

htmx uses XMLHttpRequest (XHR) to send its requests, which has some interesting behavior; it follows redirects! When I submitted my form, it received the request (with htmx’s HX-Request header set), and the server returned the redirect. XHR saw this, and followed it; however, it used the same method. (It was POSTing to the new URL.) The fix for this, though, was not easy to find, but easy to implement; use HTTP response code 303 (see other) instead of 307 (moved temporarily). Using this, combined with using hx-target="#top" on the form, allowed the P-R-G pattern to work successfully without double-POSTing and without a full-page refresh.

htmx Support in Giraffe and Giraffe View Engine

As I developed this, I was also building up extensions for Giraffe to handle the htmx request and response headers, as well as the attributes needed to generate htmx-aware markup from Giraffe View Engine. This project, called Giraffe.Htmx, is now published on NuGet. There are two packages; Giraffe.Htmx provides server-side support for the request and response headers, and Giraffe.ViewEngine.Htmx provides support for generating htmx attributes. I wrote about it when it was released, so I won’t rehash the entire thing here.

Final UI Thoughts

htmx is much less complex than any other front-end JavaScript SPA framework I have ever used - which, for context, includes Angular, Vue, React, Ember, Aurelia, and Elm. Both in development and in production use, I cannot tell that the payloads are slightly larger; navigation is fast and smooth. Though I have yet to change anything since going live with myPrayerJournal v3, I know that maintenance will be quite straightforward (to be further explored in the conclusion post).

The UI for myPrayerJournal uses Bootstrap, a UI framework which has its own script, and htmx plays quite nicely with it. The next post in this series will describe how I interact with both Bootstrap and htmx, using modals and toasts on this “traditional” web application.

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November 26, 2021
  A Tour of myPrayerJournal v3: Introduction

This is the first of 5 posts in this series.

Background

Around 3 years ago, I wrote an 8-part series called “A Tour of myPrayerJournal”, recounting the decisions and implementation of its initial release. Version 2 did not get its own tour, as it used a similar architecture. There were also some nagging library issues that were never resolved, leading to v2 being an overall unsatisfying step in the evolution of this application.

When Vue v3 was announced, this sounded like a great opportunity, with first-class TypeScript support and a new component syntax that promised better performance and a better developer experience. This past summer, I completed a project with the mature Vue v3 framework, and was generally pleased with the results. Just after I returned to my previously abandoned migration attempt on this project (with early Vue v3 support), I heard about htmx. With a few attributes, and a server that can handle a few HTTP headers, you can build an interactive site, with performance rivaling or exceeding that of the typical Single Page Application (SPA) - or, at this point, so they claimed.

I also picked up LiteDB on another project over the summer, and it worked well. I thought, why not give these technologies a try, and see if I would like the result?

(SPOILER ALERT: I did!)

The Requirements

Requirements for v3 were, for the most part, to update the application to Vue v3. Without rehashing the entire list (see the other intro post), the basic idea is that a prayer request is represented by a card, and this card keeps up with all changes made to it. Also, the system can present the cards that are active, arranged with the oldest action date first, and allow you to tick through the cards. (This is the flow to enable the user to “pray through their list.”)

The goal is to remain a minimalist program; the focus should be on prayer, not using a website. To that end, I had envisioned a “one-at-a-time” scenario that would clear out distractions and present the cards in the same order. I had also planned to separate the “last prayed” date from the “last activity” date; currently, updating the text of a request moves it to the bottom of the stack. However, both of these improvements were deferred to v3.1; v3 restores the (adequate) functionality of v1, while being much lighter-weight.

The Tech Stack

This stack did not go through nearly as many iterations as v1.

Giraffe is a library that enables F# developers to create ASP.NET Core endpoints in a functional style. It’s a mature library (v1 used Giraffe!), and continues to be improved. It also provides an optional “Giraffe View Engine,” which will get more attention in the user interface post; the views for v3 are produced via this view engine.

htmx is a JavaScript library that asks… well, several questions. Why should links and buttons be the only interactive elements? Why should you have to replace the whole page every time? What would HTML look like if it had been developed the way a typical programming language would be? It uses a small set of attributes to answer these questions differently, making interactive sites possible without writing any JavaScript. (The custom JavaScript file in v3 is 82 lines, including comments - and the majority of that is Bootstrap interaction.)

Since, in the htmx way, the web server returns rendered HTML, the requests can be a bit larger than the equivalent API calls that return JSON for a SPA framework to render. However, this is offset somewhat by the fact that the browser just has to swap that HTML fragment in; the processing is faster and much less complex.

What really swung me over the fence to giving it a shot, though, was a point Carson (the author of the library) made while talking with Carl and Richard on the .NET Rocks! podcast. Having a server render the HTML, and the browser merely displaying it, keeps your application logic on the server; the only JavaScript you need to write is what is required for the user interface. This eliminates a host of synchronization issues with SPAs and their associated APIs - duplicating shapes of data, ensuring calculations are in sync, etc. It also keeps your application logic from needing to be exposed to the public Internet; this doesn’t entirely prevent exploits, but the prospective hacker doesn’t start with a full copy of your code.

LiteDB could be described as SQLite for documents. Collections of Plain-Old CLR Objects (POCOs) can be stored, retrieved, searched, indexed, and deleted, all while running in the current process, and requiring no separate database server install. While it does not require any special configuration to do this, it does also provide the ability to transform these objects. This gives complete control as to how much or how little transformation you want to specify; and, as we’ll see in part 3, this came in handy for this application.

Where We Go from Here

In the next post, we’ll take a look at Giraffe, its View Engine, htmx, and how they all work together. The post after that will dive into the aforementioned 82 lines of JavaScript to see how we can control Bootstrap’s client/browser behavior from the server. After that, we’ll dig in on LiteDB, to include how we serialize some common F# constructs. Finally, we’ll wrap up the series with overarching lessons learned, and other thoughts which may not fit nicely into one of the other posts.

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November 9, 2021
  Introducing Giraffe.Htmx

Giraffe is a library that sits atop ASP.NET Core and allows developers to build web applications in a functional style; dotnet new giraffe is literally my starting point when I begin a new web application project. (Rather than write three more sentences filled with effusive praise, I’ll just leave it at that; it’s great.) It also provides a view engine (that builds upon Suave‘s “experimental” view engine) which uses an F# DSL to define HTML in a strongly-typed way. It has been incredibly efficient for a while, but with .NET’s work over the past two releases at improving performance, and Giraffe’s adoption of those techniques, it is lightning fast.

htmx is a library that brings interactivity to HTML through the use of attributes and HTTP headers. Whereas projects like Vue, Angular, and React prescribe completely different programming paradigms than traditional web development, htmx provides partial-page-swapping and progressive enhancement within straight HTML. This brings a lot of the benefits of the SPA architecture to vanilla HTML, without requiring a completely different paradigm than the one we have used on the web for 30 years. In practice, this greatly reduces the complexity required to produce an interactive web application.

The Giraffe.Htmx project provides a bridge between these two libraries. The project consists of two different NuGut packages.

  • Giraffe.Htmx provides extensions to Giraffe (and its exposure of ASP.NET Core’s HttpContext) that expose the request headers which htmx uses, and provides Giraffe-style HttpHandlers to set htmx’s recognized response headers. The request headers are exposed as Options, and if present, are converted to the expected type. Response headers can be set in a similar way (i.e., passing true instead of "true" for a boolean header).
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let myHandler : HttpHander =
fun next ctx ->
match ctx.Request.HxPrompt with
| Some prompt -> ... // do something with the text the user provided
| None -> ... // the user provided no text (likely was not even prompted)
...
  • Giraffe.ViewEngine.Htmx extends Giraffe’s view engine with attribute functions (ex. _hxBoost equates to hx-boost="true") to generate HTML with htmx attributes. As with the headers, the values for each attribute are expected in their strongly-typed form, and the library handles the necessary string conversion. For attributes that have a defined set of values, there are also modules that provide those values; the example below demonstrates both the attributes and the HxTrigger module.
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let autoLoad =
div [ _hxGet "/this/endpoint"; _hxTrigger HxTrigger.Load ] [ str "Loading..." ]

Head over to the project site for NuGet links and more examples!

p.s. As of this writing, the current (and only) version of this library is at v0.9.1. Both libraries should be ready for development use. For Giraffe.ViewEngine.Htmx, I intend to write helpers for hx-headers and hx-vals that will allow a list of string * string tuples to be passed. I also need to write READMEs for both NuGet packages. Once those are done, this will be v1-ready.

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