I would like to understand the difference between forRoot and forFeature in nest js dynamic modules.
I also would like to understand this difference in the case of the TypeOrm dynamic module used with nestjs.
Generally speaking, as this does not always hold true, forRoot/register is a way to provide the configuration the module is going to use whereas forFeature is away to create a dynamic provider that has it's own injection token.
In the case of the TypeOrmModule as you mentioned, forRoot() sets up the connection information that Nest makes use of, and Nest creates the injection token for the connection that is created. For forFeature, Nest takes that connection injection token under the hood and creates the injection token and custom provider for the repositories that were passed n. The token usually looks like <EntityName>Repository, and uses a factory under the hood to inject the connection and get the repository out from the TypeORM system so it can be injected into your regular services.
From nestjs discord,
forRoot/forRootAsync: configure a module one time. This is either for a global service, or a re-used configuration internally
forFeature/forFeatureAsync: make use of the configuration from forRoot/forRootAsync for a specific provider. This usually creates an injection token.
register/registerAsync: a module that can be registered multiple times with different configurations each time.
The official explanation (https://docs.nestjs.com/fundamentals/dynamic-modules#community-guidelines) is also helpful.
Use forRoot if you are expecting to configure a dynamic module once and reuse that configuration in multiple places.
Use forFeature to use the configuration of a dynamic module's forRoot but need to modify some configuration specifics in the calling module.
I've watched this example that uses Node.js (Express.js):
https://github.com/danialfarid/ng-file-upload/wiki/Node-example
My question is: How to create a service in Sails.js that can be used in Angular.js (View), that allows store files in a folder of the project, using connect-multiparty like the example?
Create a controller method in Sails
Bind it to a route in routes.js
Use connect-multiparty at top of your controller method (OR use it as a middleware in config/http.js)
I need a third party module in my angular app for the specific page only so i dont want to load those js files when they are not required
currently code is like this
angular.module('app', ['othermodule']);
but i want it like
angular.module('app',['']).
controller('ctrl'['module',function(module){
}]);
or any similar alternatives. How can modules be loaded conditionally ?
The first thing you will need to do is break your angular modules out into their own files. A simple example would be a seperate app.js that handles creating the app and routing, then controller.js and factory.js. Once you have a seperate file for each module you create the module with this syntax
angular.module('myapp.functionName.type', ['inject your custom module here'])
.whatever (controller, value, factory, etc)
You would then inject the myapp.functionName.type into the app.js
I have following structure in my application directory:
scripts/
modules/
module1/
controllers/
MainController.js
module2/
controllers/
MainController.js
main.js
What I want to achieve is to put controllers in each module to its own namespace, for example:
module1.MainController
module2.MainController
So when i use in html ng-controller="MainController" directive it knows from which module to serve it. Also it would be good that modules can communicate with each other.
Please explain to me how I can achieve this in the best way as possible, and if it's at all possible?
I've found something like this:
http://jsfiddle.net/luisperezphd/j5jzsppv/ but I'm not sure if this is good solution. It uses angular.ng-modules.js.
EDIT:
I'm trying to use Angular.js v.1.3.6. On version 1.2.x there is no problem with namespaces.
Inject one of the modules into the other using regular dependency injection:
var moduleTwo = angular.module('moduleTwo', ['otherModule']);
This allows moduleTwo to have awareness of otherModule. Then you can use a service to share state between controllers. Services are singletons (only one instance will exist), so if multiple controllers use the same service they will share that state.
I'm working in a project with angular and browserify, this is the first time for me to use this two tools together, so I would like some advice on which is the way to require files with browserify.
We may import those files in different ways, Until now I experimented this way:
Angular App:
app
_follow
- followController.js
- followDirective.js
- followService.js
- require.js
- app.js
For each folder with in the files for a plugin I created an require.js file and in it I require all the files of that folder. Like so:
var mnm = require('angular').module('mnm');
mnm.factory('FollowService', ['Restangular',require('./followService')]);
mnm.controller('FollowController',['$scope','FollowService',require('./followController')])
mnm.directive('mnmFollowers', ['FollowService',require('./followDirective')]);
and then require all require.js files in a unique file called app.js that will generate the bundle.js
Question:
This way to require the files can be a good structure, or it will have some problem when I need to test? I would like to see your way to achieve good structure with angular and browserify
AngularJS and browserify aren't, sadly, a great match. Certainly not like React and browserify, but I digress.
What has worked for me is having each file as an AngularJS module (because each file is already a CommonJS module) and having the files export their AngularJS module name.
So your example would look like this:
app/
app.js
follow/
controllers.js
directives.js
services.js
index.js
The app.js would look something like this:
var angular = require('angular');
var app = angular.module('mnm', [
require('./follow')
]);
// more code here
angular.bootstrap(document.body, ['mnm']);
The follow/index.js would look something like this:
var angular = require('angular');
var app = angular.module('mnm.follow', [
require('./controllers'),
require('./directives'),
require('./services')
]);
module.exports = app.name;
The follow/controllers.js would look something like this:
var angular = require('angular');
var app = angular.module('mnm.follow.controllers', [
require('./services'), // internal dependency
'ui.router' // external dependency from earlier require or <script/>
// more dependencies ...
]);
app.controller('FollowController', ['$scope', 'FollowService', function ...]);
// more code here
module.exports = app.name;
And so on.
The advantage of this approach is that you keep your dependencies as explicit as possible (i.e. inside the CommonJS module that actually needs them) and the one-to-one mapping between CommonJS module paths and AngularJS module names prevents nasty surprises.
The most obvious problem with your approach is that you're keeping the actual dependencies that will be injected separate from the function that expects them, so if a function's dependencies change, you have to touch two files instead of one. This is a code smell (i.e. a bad thing).
For testability either approach should work as Angular's module system is essentially a giant blob and importing two modules that both define the same name will override each other.
EDIT (two years later): Some other people (both here and elsewhere) have suggested alternative approaches so I should probably address them and what the trade-offs are:
Have one global AngularJS module for your entire app and just do requires for side-effects (i.e. don't have the sub-modules export anything but manipulate the global angular object).
This seems to be the most common solution but kind of flies in the face of having modules at all. This seems to be the most pragmatic approach however and if you're using AngularJS you're already polluting globals so I guess having purely side-effect based modules is the least of your architectural problems.
Concatenate your AngularJS app code before passing it to Browserify.
This is the most literal solution to "let's combine AngularJS and Browserify". It's a valid approach if you're starting from the traditional "just blindly concatenate your app files" position of AngularJS and want to add Browserify for third-party libs, so I guess that makes it valid.
As far as your app structure goes this doesn't really improve anything by adding Browserify, though.
Like 1 but with each index.js defining its own AngularJS sub-module.
This is the boilerplate approach suggested by Brian Ogden. This suffers from all the drawbacks of 1 but creates some semblance of hierarchy within AngularJS in that at least you have more than one AngularJS module and the AngularJS module names actually correspond to your directory structure.
However the major drawback is that you now have two sets of namespaces to worry about (your actual modules and your AngularJS modules) but nothing enforcing consistency between them. Not only do you have to remember to import the right modules (which again purely rely on side-effects) but you also have to remember to add them to all the right lists and add the same boilerplate to every new file. This makes refactoring incredibly unwieldy and makes this the worst option in my opinion.
If I had to chose today, I would go with 2 because it gives up all pretense of AngularJS and Browserify being able to be unified and just leaves both to do their own thing. Plus if you already have an AngularJS build system it literally just means adding an extra step for Browserify.
If you're not inheriting an AngularJS code base and want to know which approach works best for starting a new project instead: don't start a new project in AngularJS. Either pick Angular2 which supports a real module system out of the box, or switch to React or Ember which don't suffer from this problem.
I was trying to use browserify with Angular but found it got a bit messy. I didn't like the pattern of creating a named service / controller then requiring it from another location, e.g.
angular.module('myApp').controller('charts', require('./charts'));
The controller name / definition is in one file, but the function itself is in another. Also having lots of index.js files makes it really confusing if you lots of files open in an IDE.
So I put together this gulp plugin, gulp-require-angular which allows you write Angular using standard Angular syntax, all js files which contain angular modules and dependencies of angular modules which appear in your main module dependency tree are require()'d into a generated entry file, which you then use as your browserify entry file.
You can still use require() within your code base to pull in external libraries (e.g lodash) into services / filters / directives as needed.
Here's the latest Angular seed forked and updated to use gulp-require-angular.
I've used a hybrid approach much like pluma. I created ng-modules like so:
var name = 'app.core'
angular.module(name, [])
.service('srvc', ['$rootScope', '$http', require( './path/to/srvc' ))
.service('srvc2', ['$rootScope', '$http', require( './path/to/srvc2' ))
.config...
.etc
module.exports = name
I think the difference is that I don't define individual ng-modules as dependencies to the main ng-module, in this case I wouldn't define a Service as an ng-module and then list it as a dep of the app.core ng-module. I try to keep it as flat as possible:
//srvc.js - see below
module.exports = function( $rootScope, $http )
{
var api = {};
api.getAppData = function(){ ... }
api.doSomething = function(){ ... }
return api;
}
Regarding the comment of code-smell, I disagree. While it's an extra step, it allows for some great configurability in terms of testing against mock-services. For instance I use this quite a bit for testing agains services that might not have an existing server-API ready:
angular.module(name, [])
// .service('srvc', ['$rootScope', '$http', require( './path/to/srvc' ))
.service('srvc', ['$rootScope', '$http', require( './path/to/mockSrvc' ))
So any controller or object dependent on srvc doesn't know which it is getting. I could see this getting a bit convoluted in terms of services being dependent on other services, but that to me is bad design. I prefer to use ng's event system to communicate betw. services so that you keep their coupling down.
Alan Plum's answer is just not a great answer or at least not a great demonstration of CommonJS modules and Browserify with Angular. The claim that Browserify does not mix well with Angular, compared to React is just not true.
Browserify and a CommonJS module pattern work great with Angular, allowing you to organize by features instead of types, keep vars out of global scope and share Angular Modules across apps easily. Not to mention you do not need to ever add a single <script> to your HTML ever again thanks to Browserify finding all your dependencies.
What is particular flawed in Alan Plum's answer is not letting requires in each index.js for each folder dictate dependencies for Angular modules, controllers, services, configurations, routes etc. There is no need for a single require in the Angular.module instantiation, nor a single module.exports as in the context that Alan Plum's answer suggests.
See here for a better module pattern for Angular using Browserify: https://github.com/Sweetog/yet-another-angular-boilerplate