I'm trying to access the documentReference.data(as: ) but it seems like it wouldn't show on my end. I was wondering if this method is deprecated? if so is there any alternative method I can use to map a document reference to a Swift type.
Here's a screenshot of my code:
documentReference.data(as: ) not showing
What I'm try to do is something like this.
func fetchOccupants() async throws -> [Occupant] {
let snapshot = try await occupantsRef.getDocuments()
return snapshot.documents.compactMap { document in
try? document.data(as: Occupants.self)
}
}
I figured it out.
Apparently, at some point this method was moved to a separate module FirebaseFirestoreSwift (or maybe it was always there, I might be wrong).
Import this module and the method data(as:with:decoder:) becomes available:
import FirebaseFirestoreSwift
It's also mentioned on the documentation page about Codable: Map Cloud Firestore data with Swift Codable.
After a few days of testing and reading some documentation I finally solved it. It seems like using Cocoapods to add FirebaseFirestoreSwift is not working, so I tried using Swift Package Manager instead since it's more updated Package Manager for Swift.
Following this method works for me link
Recently I've been trying to learn testing, and everything makes sense but I'm running into how to test my specific application. A lot of my front-end JS functions interact with the DOM, which makes JSDOM and Selenium a good candidate. I use ES6 modules on my application, and one of the JS modules is easy to test because everything is wrapped in functions, and even if a function does use the DOM, I could always replicate the behavior with JSDOM. This is how that module looks.
/* simple-module.js */
// does not use DOM on load :)
const myFunc = () => {
document.querySelector(".aDiv").innerHTML = "DOM is accessed on function call";
}
Another module however, I'm having issues with.
/* troublesome-module.js */
let div = document.querySelector(".aDiv");
div.innerHTML = "this is all happening as soon as the module is loaded";
const myFunc = () => {
div.innerHTML = "this happens on function call";
}
As you can see, the DOM is used as soon as the module is loaded.
This is what my test file looks like and why I'm running into issues.
/* test.js */
import * as assert from "assert";
import chromedriver from 'chromedriver';
import * as JSDOM from "jsdom";
import * as webdriver from "selenium-webdriver";
import * as troubleSomeMod from "../troublesome-module.js";
When I run this file, I obviously get an error from 'troublesome-module.js' that there is no such 'document' object. My first thought is to use selenium to load the main webpage, assign global.document to selenium's environment, do the same for global.window, then I can import 'troublesome-module.js' and the DOM will already be replicated. That falls apart when I realized I imports have to be the top level in a JS document.
Is there a way I could load the selenium environment, load the modules, and then appropriately test the functions in the modules? If not, I can always use selenium to completely replicate a user and test that way, however testing individual functions seems more robust to changes. Thank you if you read this far :), any help is appreciated.
Our company produces an automation framework that is written in svelte/sapper. One feature is that developers can create custom ui widgets, currently using plain js/html/css and our client side api. These widgets are stored in the database and not on the file system.
I think it would be a big plus to allow them to create widgets as svelte components since it contains all of the markup, js and css in one location and would give them all of the benefits of svelte's reactivity.
I have gotten as far as creating an endpoint that compiles components using svelte's server API but that just seems to generate a module that is ready for rollup-plugin-svelte/sapper/babel to finish the job of producing something the browser can use.
How can I manually compile a svelte component down to the final javascript and css that sapper/svelte produces.
Ouch, tough one. Hang tight.
What you're missing actually is the "linking", that is resolving import statements in the compiled code to something the browser can use. This is the work that is typically done by the bundler (e.g. Rollup, Webpack...).
These imports can come from user (widget developer) code. For example:
import { onMount } from 'svelte'
import { readable } from 'svelte/store'
import { fade } from 'svelte/transition'
import Foo from './Foo.svelte'
Or they can be injected by the compiler, depending on the features that are used in your component. For example:
// those ones are inescapable (bellow is just an example, you'll
// get different imports depending on what the compiled component
// actually does / uses)
import {
SvelteComponent,
detach,
element,
init,
insert,
noop,
safe_not_equal,
} from 'svelte/internal'
Svelte compiles .svelte to .js and, optionally, .css, but it doesn't do anything with imports in your code. On the contrary, it adds some (but still, doesn't resolve them, it's out of its scope).
You'd need to parse the compiled code to find those imports that, raw from the compiler, probably points to paths on your file system and your node_modules directory, and rewrite them to something that makes sense for the browser -- that is, URLs...
Doesn't seem much fun, does it? (Or too much of it, depending on how you see things...) Fortunately, you're not alone with this need and we've got pretty powerful tooling dedicated precisely to this task: enter the bundler!
Solving the linking problem
One relatively straightforward approach to this problem (more to come, don't get too excited too early) is to compile your widgets, not with Svelte's compiler API, but with Rollup and the Svelte plugin.
The Svelte plugin essentially does what you were doing with the compiler API, but Rollup will also do all the hard work of rewiring imports and dependencies in order to produce a neat little package (bundle) that is consumable by the browser (i.e. that doesn't rely on your file system).
You can compile one widget (here Foo.svelte) using some Rollup config like this:
rollup.config.Foo.js
import svelte from 'rollup-plugin-svelte'
import commonjs from '#rollup/plugin-commonjs'
import resolve from '#rollup/plugin-node-resolve'
import css from 'rollup-plugin-css-only'
import { terser } from 'rollup-plugin-terser'
const production = !process.env.ROLLUP_WATCH
// include CSS in component's JS for ease of use
//
// set to true to get separate CSS for the component (but then,
// you'll need to inject it yourself at runtime somehow)
//
const emitCss = false
const cmp = 'Foo'
export default {
// our widget as input
input: `widgets/${cmp}.svelte`,
output: {
format: 'es',
file: `public/build/widgets/${cmp}.js`,
sourcemap: true,
},
// usual plugins for Svelte... customize as needed
plugins: [
svelte({
emitCss,
compilerOptions: {
dev: !production,
},
}),
emitCss && css({ output: `${cmp}.css` }),
resolve({
browser: true,
dedupe: ['svelte'],
}),
commonjs(),
production && terser(),
],
}
Nothing very extraordinary here... This is basically the config from the official Svelte template for Rollup, minus the parts pertaining to the dev server.
Use the above config with a command like this:
rollup --config rollup.config.Foo.js
And you'll get your browser-ready compiled Foo widget in public/build/Foo.js!
Rollup also has a JS API so you could run this programmatically as needed from a web server or whatever.
Then you'll be able to dynamically import and then use this module with something like this in your app:
const widget = 'Foo'
const url = `/build/widgets/${widget}.js`
const { default: WidgetComponent } = await import(url)
const cmp = new WidgetComponent({ target, props })
Dynamic imports will probably be necessary in your case, because you won't know about the widgets at the time you build your main app -- hence you will need to construct the import URLs dynamically like above at runtime. Note that the fact that the import URL is a dynamic string will prevent Rollup from trying to resolve it at bundle time. This means the import will end up as written above in the browser, and that it must be an URL (not a file path on your machine) that the browser will be able to resolve.
That's because we're consuming the compiled widget with a browser native dynamic import that we need to set output.format to es in the Rollup config. The Svelte component will be exposed with export default ... syntax, that modern browsers natively understand.
Dynamic imports are very well supported by current browsers. The notable exception is the "old" Edge (before it essentially became Chrome). If you need to support older browsers, polyfills are available (many of them actually -- e.g. dimport).
This config can be further automatized to be able to compile any widget, not just Foo. For example, like this:
rollup.config.widget.js
... // same as above essentially
// using Rollup's --configXxx feature to dynamically generate config
export default ({ configWidget: cmp }) => ({
input: `widgets/${cmp}.svelte`,
output: {
...
file: `public/build/widgets/${cmp}.js`,
},
...
})
You can then use it like this:
rollup --config rollup.config.widget.js --configTarget Bar
We're making progress, yet there remains a few caveats and hurdles to be aware of (and maybe optimize further -- your call).
Caveat: shared dependencies
The above approach should give you the compiled code for your widgets, that you can run in the browser, with no unresolved imports. Good. However, it does so by resolving all dependencies of a given widget when it is built, and bundling all these dependencies in the same file.
Said otherwise, all dependencies that are shared between multiple widgets will be duplicated for every widget, very notably the Svelte dependencies (i.e. imports from svelte or svelte/*). This is not all bad, because it gives you very standalone widgets... Unfortunately, this also add some weight to your widgets code. We're talking something like maybe 20-30 kb of JS added to each widgets that could be shared between all of them.
Also, as we will see soon, having independent copies of Svelte internals in your app has some drawbacks we need to take into consideration...
One easy way to extract common dependencies so they can be shared instead of duplicated is to bundle all your widgets in one pass. This might not be practicable for all the widgets of all your users, but maybe it can be doable at individual user level?
Anyway, here's the general idea. You would change the above Rollup configs to something like this:
rollup.config.widget-all.js
...
export default {
input: ['widgets/Foo.svelte', 'widgets/Bar.svelte', ...],
output: {
format: 'es',
dir: 'public/build/widgets',
},
...
}
We're passing an array of files, instead of just one, as the input (you would probably automatize this step by listing files in a given directory), and we're changing output.file to output.dir, since now we're gonna have several files generated at once. Those files will include common dependencies of your widgets that Rollup will have extracted, and that all your widgets will share between them for reuse.
Further perspectives
It would be possible to push even further, by extracting some shared dependencies (say, Svelte...) yourself and make them available as URLs to the browser (i.e. serve them with your web server). This way, you could rewrite those imports in your compiled code to those known URLs instead of relying on Rollup to resolve them.
This would reduce code duplication entirely, saving weight, and also this would allow to have a single version of those dependencies shared among all the widget that use them. Doing so would also relieve the need to build all widgets that share dependencies in one go at the same time, which is alluring... However, this would be pretty (!) complicated to setup, and you would actually hit diminishing returns fast.
In effect, when you're bundling a bunch of widgets together (or even just one) and let Rollup extract the dependencies, it is possible for the bundler to know what parts of the dependencies are actually needed by the consuming code and skip the rest (keep in mind: Rollup was built with tree shaking as one -- if not the one -- of its main priority, and Svelte was built by the same guy -- meaning: you can expect Svelte to be very tree shaking friendly!). On the other hand, if you extract some dependencies manually yourself: it relieves the need to bundle all consuming code at once, but you will have to expose the whole of the consumed dependencies, because you won't be able to know in advance the parts from them that will be needed.
It's a balance you need to find between what is efficient and what is practical, accounting for the added complexity of each solution to your setup. Given your use case, my own feeling is that the sweet spot is either bundling each widget entirely independently, or bundling a bunch of widgets from, say, the same user together to save some weight, as described above. Pushing harder would probably be an interesting technical challenge, but it would reap just little extra benefits, but somewhat exploding complexity...
OK so we now know how to bundle our widgets for the browser. We even have some degree of control on how to pack our widgets entirely standalone, or take on some extra infrastructure complexity to rather share dependencies between them and save some weight. Now, we've got a special dependency to consider, when we decide how we make our pretty little packets (err, bundles): that's Svelte itself...
Mind the trap: Svelte can't be duplicated
So we understand that when we're bundling a single widget with Rollup, all of its dependencies will be included in the "bundle" (just the one widget file in this case). If you bundle 2 widgets in this way and they share some dependencies, those dependencies will be duplicated in each of those bundles. In particular, you'd get 2 copies of Svelte, one in each widget. Likewise, the dependencies of your "main" app that are shared with some widgets will nonetheless be duplicated in the browser. You'll have multiple copies of the same code that will be used by those different bundles -- your app, different widgets...
However, there is something special about Svelte that you need to know: it doesn't support being duplicated. The svelte/internal module is stateful, it contains some global variables that would be duplicated if you have multiple copies of this code (see above). What this means, in practice, is that Svelte components that don't use the same copie of Svelte internals can't be used together.
For example, if you have a App.svelte component (your main app) and a Foo.svelte component (e.g. a user widget) that have been bundled independently, then you can't use Foo in App, or you'd get weird bugs.
This wouldn't work:
App.svelte
<script>
// as we've seen, in real life, this would surely be a
// dynamic import but whatever, you get the idea
import Foo from '/build/widgets/Foo.js'
</script>
<!-- NO -->
<Foo />
<!-- NO -->
<svelte:component this={Foo} />
That's also the reason why you have this dedupe: ['svelte'] option in the official Svelte template's Rollup config... This is intended to prevent bundling different copies of Svelte, which would happen if you ever used linked packages, for example.
Anyway, in your case it is kind of unescapable to end up with multiple copies of Svelte in the browser, since you're probably not wanting to rebuild your whole main app anytime a user adds or changes one of their widget... Except going to great lengths to extract, centralize, and rewrite the Svelte imports yourself; but, as I said, I don't believe this would be a reasonable and sustainable approach.
And so we're stuck.
Or are we?
The problem of duplicated Svelte copies only occurs when the conflicting components are part of the same components tree. That is, when you let Svelte create and manage the component instances, like above. The problem doesn't exist when you create and manage the component instances yourself.
...
const foo = new Foo({ target: document.querySelector('#foo') })
const bar = new Bar({ target: document.querySelector('#bar') })
Here foo and bar will be entirely independent component trees, as far as Svelte is concerned. Code like this will always work, irrelevantly of how and when (and with which Svelte version, etc.) Foo and Bar were compiled and bundled.
As I understand your use case, this is not a major hurdle. You won't be able to embed your users' widgets into your main app with something like <svelte:component />... However, nothing prevents you from creating and managing the widget instances in the right place yourself. You can create a wrapper component (in your main app) to generalize this approach. Something like this:
Widget.svelte
<script>
import { onDestroy } from 'svelte'
let component
export { component as this }
let target
let cmp
const create = () => {
cmp = new component({
target,
props: $$restProps,
})
}
const cleanup = () => {
if (!cmp) return
cmp.$destroy()
cmp = null
}
$: if (component && target) {
cleanup()
create()
}
$: if (cmp) {
cmp.$set($$restProps)
}
onDestroy(cleanup)
</script>
<div bind:this={target} />
We create a target DOM element from our main app, render an "external" component in it, pass down all the props (we're proxying reactivity), and don't forget to cleanup when our proxy component is destroyed.
The main limitation of such an approach is that Svelte context (setContext / getContext) of the app won't be visible to the proxied components.
Once again, this doesn't really seem like a problem in the widget use case -- maybe even better: do we really want the widgets to have access to every bits of the surrounding app? If really needed, you can always pass bits of context down to the widget components via props.
The above Widget proxy component would then be used like this in your main app:
<script>
import Widget from './Widget.svelte'
const widgetName = 'Foo'
let widget
import(`/build/widgets/${widgetName}.js`)
.then(module => {
widget = module.default
})
.catch(err => {
console.error(`Failed to load ${widgetName}`, err)
})
</script>
{#if widget}
<Widget this={widget} prop="Foo" otherProp="Bar" />
{/if}
And... Here we are? Let's sum it up!
Summary
Compile your widgets with Rollup, not Svelte compiler directly, to produce browser ready bundles.
Find the right balance between simplicity, duplication and extra weight.
Use dynamic imports to consume your widgets, that will be built independently of your main app, in the browser.
Do not try to mix together components that don't use the same copy of Svelte (essentially means bundled together, except if you've launched into some extraordinary hack). It might looks like it works at first, but it won't.
Thanks to the detailed post by #rixo I was able to get this working. I basically created a rollup.widget.js like this:
import json from '#rollup/plugin-json';
import resolve from '#rollup/plugin-node-resolve';
import commonjs from '#rollup/plugin-commonjs';
import svelte from 'rollup-plugin-svelte';
import path from "path";
import fs from "fs";
let basePath = path.join(__dirname,'../widgets');
let srcFiles = fs.readdirSync(basePath).filter(f=>path.extname(f) === '.svelte').map(m=> path.join(basePath,m ));
export default {
input: srcFiles,
output: {
format: 'es',
dir: basePath,
sourcemap: true,
},
plugins: [
json(),
svelte({
emitCss: false,
compilerOptions: {
dev: false,
},
}),
resolve({
browser: true,
dedupe: ['svelte']
}),
commonjs()
]
}
Then generate the svelte components from the database and compile:
const loadConfigFile = require('rollup/dist/loadConfigFile');
function compile(widgets){
return new Promise(function(resolve, reject){
let basePath = path.join(__dirname,'../widgets');
if (!fs.existsSync(basePath)){
fs.mkdirSync(basePath);
}
for (let w of widgets){
if (w.config.source){
let srcFile = path.join(basePath,w.name + '.svelte');
fs.writeFileSync(srcFile,w.config.source);
console.log('writing widget source file:', srcFile)
}
}
//ripped off directly from the rollup docs
loadConfigFile(path.resolve(__dirname, 'rollup.widgets.js'), { format: 'es' }).then(
async ({ options, warnings }) => {
console.log(`widget warning count: ${warnings.count}`);
warnings.flush();
for (const optionsObj of options) {
const bundle = await rollup(optionsObj);
await Promise.all(optionsObj.output.map(bundle.write));
}
resolve({success: true});
}
).catch(function(x){
reject(x);
})
})
}
And then consume the dynamic widget as #rixo proposed:
<script>
import {onMount, onDestroy, tick} from 'svelte';
import Widget from "../containers/Widget.svelte";
export let title = '';
export let name = '';
export let config = {};
let component;
let target;
$: if (name){
loadComponent().then(f=>{}).catch(x=> console.warn(x.message));
}
onMount(async function () {
console.log('svelte widget mounted');
})
onDestroy(cleanup);
async function cleanup(){
if (component){
console.log('cleaning up svelte widget');
component.$destroy();
component = null;
await tick();
}
}
async function loadComponent(){
await cleanup();
let url = `/widgets/${name}.js?${parseInt(Math.random() * 1000000)}`
let comp = await import(url);
component = new comp.default({
target: target,
props: config.props || {}
})
console.log('loading svelte widget component:', url);
}
</script>
<Widget name={name} title={title} {...config}>
<div bind:this={target} class="svelte-widget-wrapper"></div>
</Widget>
A few notes/observations:
I had much better luck using rollup/dist/loadConfigFile than trying to use rollup.rollup directly.
I went down a rabbit hole of trying to create both client and server globals for all of the svelte modules and marking them as external in the widget rollup so that everything used the same svelte internals. This ended up being a mess and gave the widgets access to more than I wanted.
If you try to embed your dynamically compiled widget in your main app with <svelte:component it will sort of work but give you the dreaded outros.c undefined error if you try to reference a dynamic widget from another. After this happens reality breaks down and the app is in a strange state.
#rixo is always right. I was warned about each of these things in advance and the result was exactly as predicted.
Is there a way of defining which region to use when deploying a function to firebase using either the firebase.json or the .firebaserc files? The documentation around this doesn't seem to be clear.
Deploying the firebase functions using GitHub Actions and want to avoid adding the region in the code itself if possible.
Suggestions?
It's not possible using the configurations you mention. The region must be defined synchronously in code using the provided API. You could perhaps pull in an external JSON file using fs.readFileSync() at the global scope of index.js, parse its contents, and apply them to the function builder. (Please note that you have to do this synchronously - you can't use a method that returns a promise.)
I've target this problem using native functions config.
Example:
firebase functions:config:set functions.region=southamerica-east1
Then in functions declaration I'd as follows:
const { region } = functions.config().functions;
exports.myFunction = functions.region(region).https.onCall((data) => {
// do something
});
That way, for each time I need a different region, it would only need a new config set.
I've managed to successfully create an ‘AdminProgram’ which is used to build the installer for my main project. It creates required configs/packages in file system correctly, updates all .xml files and copies all required elements into the correct places before building the installer, which is pretty great.
However, I am now looking to customize my installer to do a little more so that it is able to install a few drivers into the windows registry and at a later date remove existing installs before proceeding with a new one. I have studied the ‘instructions’ ( http://doc-snapshot.qt-project.org/qtifw-1.4/scripting.html#predefined-variables) for some time now and have been unable to quite grasp how exactly these Custom Operations are implemented (where the example code is supposed to be written, how the overridden operations are accessed etc.).
I find that the instruction are a little ambiguous for a programmer as inexperienced as myself and would very much appreciate some help from anyone who can give it?
In order to set entries in the registry you need to add GlobalConfig operations in your component script.
Overload the method Component.prototype.createOperations and add additional commands such as:
function Component() {
'use strict';
}
Component.prototype.createOperations = function () {
'use strict';
// call default implementation
component.createOperations();
component.addOperation("GlobalConfig",
"HKEY_CURRENT_USER\\Software\\#Publisher#\\#ProductName#\\entry",
"key",
"value");
}
The list of operations available are here