nogap
v0.7.3
Published
NoGap is a full-stack (spans Host and Client) JavaScript framework, featuring RPC + simple code sharing + basic asset management + full-stack Promise chains and more...
Downloads
115
Readme
NoGap
NoGap is a full-stack (spans Host and Client) JavaScript framework, featuring RPC (Remote Procedure Calls) + simple code sharing + basic asset management + full-stack Promise chains.
NoGap's primary use case is development of rich single-page web applications while alleviating the typical hassles of doing so.
This module is called No
Gap
because it removes the typical gap that exists between Host and Client and that makes a client-server-architecture so cumbersome to develop.
You probably want to start by having a look at the Samples for reference.
If you want to get serious, take a look at the Getting Started section to figure out how to build a complete Node-based web application with NoGap.
The Structure of NoGap components section lays out the structure of NoGap's basic building block: the component.
Note that currently, the only dependency of NoGap is Node
and some of its modules but even that is planned to be removed in the future.
NOTE: NoGap is still in Beta. Things are still changing. If you are concerned about that, feel free to contact me directly.
Table of Contents
- NoGap
- HelloWorld
- Installation
- Samples
- Component Structure
- Getting Started
- Debuggability & security
- Important Terms
- Final Words
HelloWorld
Link.
var NoGapDef = require('nogap').Def;
module.exports = NoGapDef.component({
Client: NoGapDef.defHost(function(Tools, Instance, Context) {
return {
initClient: function() {
document.body.innerHTML = 'Hello World!';
}
};
});
});
Concepts
- Get the NoGap module's
Def
helper:var NoGapDef = require('nogap').Def;
- Define a new component:
NoGapDef.component({ ... });
- Add a
Client
definition to the component:Client: NoGapDef.defClient(function(Tools, Instance, Context) { ... })
- Add
initClient
method toClient
What is the trick?
- The
Client
code is automatically deployed to the client initClient
is then automatically called on the client, right afterwards
Installation
- Install Node
- Make sure to select
Add to PATH
during GUI-based installation.
- Make sure to select
- Open a command line
- On Windows: Press
Ctrl+R
-> Typecmd
->Enter
- On Windows: Press
- Run:
npm install nogap
- Done.
Samples
Link.
The Samples highlight some (soon, all!) features of the NoGap framework and how they are used. To run the samples:
- Create a new folder (e.g. NoGapTest)
- Follow installation instructions given above
- You now have a
node_modules/nogap
subfolder. - You can now work through the samples below and try it out in real-time
- You now have a
cd node_modules/nogap/samples/HelloWorld
(or any other sample)npm install
(will automatically download and install the sample's dependencies)npm start
(this will run the app defined in the sample'spackage.json
)- Open your browser and go to
localhost:1234
(or whatever port you are using) - Start playing!
HelloWorld
Link.
var NoGapDef = require('nogap').Def;
module.exports = NoGapDef.component({
Client: NoGapDef.defClient(function(Tools, Instance, Context) {
return {
initClient: function() {
document.body.innerHTML = 'Hello World!';
}
};
});
});
Concepts
- Get the NoGap module's
Def
helper:var NoGapDef = require('nogap').Def;
- Define a new component:
NoGapDef.component({ ... });
- Add a
Client
definition to the component:Client: NoGapDef.defClient(function(Tools, Instance, Context) { ... })
- Add
initClient
method toClient
What is the trick?
- The
Client
code is automatically deployed to the client initClient
is then automatically called on the client, right after installation
TwoWayStreet
Link.
var NoGapDef = require('nogap').Def;
NoGapDef.component({
Host: NoGapDef.defHost(function(SharedTools, Shared, SharedContext) {
var nBytes = 0;
return {
Public: {
tellMeSomething: function(message) {
nBytes += (message && message.length) || 0;
this.client.showHostMessage('Host has received a total of ' + nBytes + ' bytes.');
}
}
};
}),
Client: NoGapDef.defClient(function(Tools, Instance, Context) {
return {
initClient: function() {
// bind a button to a component function (quick + dirty):
window.clickMe = this.onButtonClick.bind(this);
document.body.innerHTML += '<button onclick="window.clickMe();">Click Me!</button><br />';
},
onButtonClick: function() {
document.body.innerHTML +='Button was clicked.<br />';
this.host.tellMeSomething('hello!');
},
Public: {
showHostMessage: function(msg) {
document.body.innerHTML +='Server said: ' + msg + '<br />';
}
}
};
})
});
Concepts
- Add a
Client
definition to the component:Client: NoGapDef.defClient(function(Tools, Instance, Context) { ... })
Client.initClient
- Add a
Host
definition to the component:Host: NoGapDef.defHost(function(SharedTools, Shared, SharedContext) { ... })
Host.Public
Client.Public
What is the trick?
this.host
gives us an object on which we can callPublic
methods on the host- For example, we can call
tellMeSomething
which is a method that was defined inHost.Public
- Once the host receives our request, it calls
this.client.showHostMessage
- Note:
this.host
(available on Client) vs.this.client
(available on Host)
Full-stack promise chains
NoGap supports full-stack Promise chains. Meaning you can let the Client wait until a Host-side function call has returned. And you can even return a value from a Host function, and it will arrive at the Client. Errors also traverse the entire stack!
Code snippet:
var NoGapDef = require('nogap').Def;
NoGapDef.component({
Host: NoGapDef.defHost(function(SharedTools, Shared, SharedContext) {
var nBytes = 0;
return {
Public: {
tellMeSomething: function(message) {
nBytes += (message && message.length) || 0;
this.Tools.log('Client said: ' + message);
return 'Thank you! I now received a total of ' + nBytes + ' bytes.';
}
}
};
}),
Client: NoGapDef.defClient(function(Tools, Instance, Context) {
return {
initClient: function() {
// bind a button to a component function (quick + dirty):
window.clickMe = this.onButtonClick.bind(this);
document.body.innerHTML += '<button onclick="window.clickMe();">Click Me!</button><br />';
},
onButtonClick: function() {
document.body.innerHTML +='Button was clicked.<br />';
this.host.tellMeSomething('hello!')
.then(function(hostMessage) {
document.body.innerHTML += 'Host said: ' + hostMessage + '<br />';
})
.catch(function(err) {
// this can be a connection error, a bug, a Host-side `reject` etc etc...
console.error('Something went wrong: ' + (err.stack || err));
});
}
};
})
});
New Concepts
Client.initClient
will be called right after the Client connected.- Upon button click, we call
this.host.tellMeSomething(...)
which will send a request to theHost
to invoke that method (given it is inHost.Public
). - Calling a
Public
function on a component'shost
object returns a promise. - That promise is part of a full-stack Promise chains. Once finnished, we get the return value from that
Host
method in ourthen
callback.
TwoWayStreetAsync
Link.
Imagine the server had to do an asynchronous operation in tellMeSomething
, such as reading a file, or getting something from the database.
We can simply use promises for that!
tellMeSomething: function() {
Promise.delay(500) // wait 500 milliseconds before replying
.bind(this) // this is tricky!
.then(function() {
this.client.showHostMessage('We have exchanged ' + ++iAttempt + ' messages.');
});
}
And again, we can just return the message and it will arrive at the Client automagically, like so:
tellMeSomething: function() {
Promise.delay(500) // wait 500 milliseconds before replying
.bind(this) // this is tricky!
.then(function() {
return 'We have exchanged ' + ++iAttempt + ' messages.';
});
}
// ...
onButtonClick: function() {
document.body.innerHTML +='Button was clicked.<br />';
this.host.tellMeSomething()
.bind(this) // this is tricky!
.then(function(hostMessage) {
this.showHostMessage(hostMessage);
});
},
New Concepts
- We need to perform an asynchronous request whose result is to be sent to the other side
- Simply use Promise chains!
- NOTE: JavaScript's
this
is tricky!
CodeSharingValidation
Link.
Base: NoGapDef.defBase(function(SharedTools, Shared, SharedContext) { return {
validateText: function(text) {
if (text.indexOf('a') >= 0 || text.indexOf('A') >= 0) {
return null;
}
return text.trim();
}
};}),
Host: NoGapDef.defHost(function(SharedTools, Shared, SharedContext) { return {
Public: {
setValue: function(value) {
this.value = this.Shared.validateText(value);
// ...
}
}
};}),
Client: NoGapDef.defClient(function(Tools, Instance, Context) { return {
// ...
value = this.validateText(value);
// ...
};})
New Concepts
- The
Base
definition is merged into bothClient
andHost
- You can use it to easily share code between them
Assets
Link.
NoGapDef.component({
Host: NoGapDef.defHost(function(SharedTools, Shared, SharedContext) { return {
Assets: {
AutoIncludes: {
js: [
// jquery
'//ajax.googleapis.com/ajax/libs/jquery/2.1.1/jquery.min.js'
],
css: [
// bootstrap
'//netdna.bootstrapcdn.com/bootstrap/3.1.1/css/bootstrap.min.css'
]
},
Files: {
string: {
/**
* The contents of `template.html` will be automatically made available to the client
* through in the `assets.view` property.
*/
view: 'template.html'
}
}
}
};}),
Client: NoGapDef.defClient(function(Tools, Instance, Context) { return {
initClient: function() {
/**
* Append contents of HTML asset to document.
*/
document.body.innerHTML += this.assets.view;
}
};})
});
New Concepts
- As of now, you can define two types of file-based assets:
AutoIncludes
defines lists ofjs
andcss
files that will be automatically included in the client headerFiles
will be read and it's contents will be available through the clientsassets
variable.- Currently they can only be interpreted as string. Future plans:
code
,image
and more more more...
- Currently they can only be interpreted as string. Future plans:
Multiple Components
The Simple Sample App already does this.
Examples of multi-component code
- Call
say
onComponentA
:Shared.ComponentA.say('hello');
- Call
somePublicMethod
on the client of aComponentB
instance:this.Instance.ComponentB.client.somePublicMethod(some, data);
Full-stack error handling
TODO!
- Feel free to try and throw an error or use
Promise.reject
in aHost
'sPublic
function, and thencatch
it on the Client side. You will notice that, for security reasons, the contents of Host-side exceptions are modified before being sent to the Client. - You can override
Tools.onError
to customize error handling (especially on the server) - TODO: Trace verbosity configuration
Dynamic Loading of Components
This feature lets clients request components on demand. This way, complex web applications can send code and assets at the time of first usage, not one moment earlier. This saves bandwidth and improves I/O performance.
How?
- Set
lazyLoad
to1
in the config - Call
this.Tools.requestClientComponents(componentNames, callback);
to lazily load components fromHost
or fromClient
instances.
Simple Sample App
Link.
This App shows how to start building a real application with NoGap. It uses Angular
, Boostrap
and Font-Awesome
to do some real client-side rendering and client<->host communication.
IMPORTANT: None of these libraries are required. You can build your frontend and backend any way you want.
Component Structure
NOTE: The following is a rough explanation of many of NoGap's features. You are recommended to compare the explanation to their actual implementation in the Simple Sample App to better understand them.
Every component has two endpoint definitions, called Host
and Client
, as well as shared code, inside the so-called Base
definition. You provide Host
, Client
and Base
definitions by calling defHost
, defClient
and defBase
respectively. The only argument to these def*
functions is your component definition: A function with three arguments that returns the actual definition object.
Host
Host
has two places for defining functionality: Shared and instance. This distinction is necessary because a Host
can be tied to multiple Client
s. Note though that each Client
can only be tied to a single Host
(as of now).
The Shared object of a component is a singleton; it exists only once for the entire application. You can access all
Shared
component objects through theShared
set which is the second argument of everyHost
's component definition.The instance object of a component exists once for every client. Every client that connects to the server, gets its own set of instances of every active component. On the
Host
side, the instance object of a component is defined as the merged result of all members ofPrivate
andPublic
which we call instance members. These instance members are accessible throughthis.Instance
from instance code, that is, code inside ofPrivate
andPublic
properties. If you want to hook into client connection and component bootstrapping events, simply defineonNewClient
oronClientBootstrap
functions insideHost.Private
. You can access the owning component's Shared singleton throughthis.Shared
from withinPrivate
orPublic
functions. Inside aHost
instance object, you can directly callPublic
instance members on the client throughthis.client.someClientPublicMethod(some, data)
. Being able to directly call a function on a different computer or in a different program is called RPC (Remote Procedure Call). Similarly,Client
instances can directly callthis.host.someHostPublicMethod
which returns a Promise which will be fulfilled once theHost
has run the function and notified the client.
Client
The set of all Client
endpoint definitions is automatically sent to the client and installed, as soon as a client connects. On the client side, this.Shared
and this.Instance
refer to the same object, and Private
and Public
are both merged into the Client
component definition itself. If you want to load components dynamically (i.e. lazily), you need to set the lazyLoad
config parameter to true
or 1
.
Base
Everything from the Base
definition is merged into both, Host
and Client
. Public
and Private
are also merged correspondingly. Since Host
and Client
operate slightly different, certain naming decisions had to be made seemingly in favor of one over the other. E.g. the Shared
concept does not exist on client side (because a Client
only contains a single instance of all components), so there, it simply is the same as Instance
.
Inside Base
members, you can call this.someMethod
even if someMethod
is not declared in Base
, but instead is declared in Host
as well as Client
. At the same time, you can call this.someBaseMethod
from Client
or Host
. That enables you to easily have shared code call endpoint-specific code and vice versa, thereby supporting polymorphism and encapsulation.
Component Skeleton
This skeleton code summarizes (most of) the available component structure:
/**
* A complete Component skeleton
*/
"use strict";
var NoGapDef = require('nogap').Def;
module.exports = NoGapDef.component({
/**
* If no name is given, NoGap will use the filename as name.
* If you define more than one unnamed component per file, you will see an error.
*/
Name: undefined,
/**
* Array of names (strings) of all components to also be installed
* when installing this component.
* This is to signal that one component depends on or
* requires use of another.
* NOTE: This is important when components are dynamically loaded (`lazyLoad` = 1).
*/
Includes: [ 'Component1', 'SomethingElse' ],
/**
* The `Base` definition is merged into both, `Host` and `Client`
*/
Base: NoGapDef.defBase(function(SharedTools, Shared, SharedContext) {
return {
/**
* Called right before `__ctor` of `Host` and `Client`.
* Will be removed once called.
*/
__ctor: function() {
},
/**
* Called right before `initHost` and `initClient`.
*/
initBase: function() {
},
/**
* Private instance members.
*/
Private: {
},
/**
* Public instance methods that can be called by the other side.
*/
Public: {
}
};
}),
/**
* The `Host` definition is only executed on and visible to the server.
*/
Host: NoGapDef.defHost(function(SharedTools, Shared, SharedContext) {
return {
/**
* The ctor is called only once, during NoGap initialization,
* when the `Shared` component part is created.
* Will be removed once called.
*/
__ctor: function () {
},
/**
* Is called once on each component after
* all components have been created, and after `initBase`.
*/
initHost: function() {
},
/**
* Private instance members.
*/
Private: {
/**
* Is called only once per session and application start,
* when the instance for the given session has been created.
* Will be removed once called.
*/
__ctor: function () {
},
/**
* Called when a client connected.
*/
onNewClient: function() {
},
/**
* Called after `onNewClient`, once this component
* is about to be sent to the `Client`.
* Since components can be deployed dynamically (if `lazyLoad` is enabled),
* this might happen much later, or never.
*/
onClientBootstrap: function() {
}
},
/**
* Public instance methods that can be called by the client.
*/
Public: {
},
};
}),
/**
* The `Client` definition is automatically deployed to every connected client.
*/
Client: NoGapDef.defClient(function(Tools, Instance, Context) {
return {
/**
* Called once after creation of the client-side instance.
* Will be removed once called.
*/
__ctor: function () {
},
/**
* Called once after all currently deployed client-side
* components have been created, and after `initBase`.
*/
initClient: function() {
},
/**
* Called after the given component has been loaded in the Client.
* NOTE: This is generally only important when components are dynamically loaded (`lazyLoad` = 1).
* (Because else, `initClient` will do the trick.)
*/
onNewComponent: function(newComponent) {
},
/**
* Called after the given batch of components has been loaded in the Client.
* This is called after `onNewComponent` has been called
* on each individual component.
* NOTE: This is generally only important when components are dynamically loaded (`lazyLoad` = 1).
* (Because else, `initClient` will do the trick.)
*/
onNewComponents: function(newComponents) {
},
/**
* This will be merged into the Client instance.
* It's members will reside along-side the members defined above it.
*/
Private: {
},
/**
* Public instance methods that can be called by the host.
*/
Public: {
}
};
})
});
Getting Started
TODO: Need to rewrite this with to work with the new version that adapted full-stack Promises.
This tutorial is aimed at those who are new to NoGap
, and new to Node
in general.
It should help you bridge the gap from the Code Snippets to a real-world application.
Note that the Simple Sample App is also following these guidelines.
Recommended File Structure
.
+-- components/
| +-- models/
| +-- ui/
| +-- util/
+-- lib/
+-- pub/
+-- app.js
+-- appConfig.js
+-- package.json
This is the recommended file structure for the average web application. As always, the structure might look vastly different for special purpose applications.
components/
This folder contains your NoGap
components, and possibly (some of) their assets. You can name it anything you want.
NOTE: Placing assets (such as *.html templates, stylesheets, images etc.) next to code is actually good style, if it supports modularization. If your components have a sufficiently modular design, you can simply copy their folder, to deploy them and their assets in other places.
components/models/
This folder contains the interface with your DB and possibly other storage systems. They provide CRUD functionality to the rest of the application.
components/ui/
This folder contains UI-related components. That is UI controller and view code. Views (templates and HTML files) are in files, separate from the code, but they can be in the same folder to support modularity.
components/util/
This folder contains general-purpose utility components used on both Client
and Host
. They usually only contain a Base
definition, with possible specializations in Client
and Host
.
app.js
This defines your actual application. You can name it anything you want. Usually, this file only does three things:
- Setup your app
- Start
NoGap
- Start your
express
server
Express is the standard Node way of starting a HTTP server and let clients connect. Once it is running you can connect to it with your browser on the specified port.
NOTE: When using NoGap
you will not need to work with express anymore (other than starting the server). You can use it, but you are recommended to use components instead.
appConfig.js
This is your custom configuration file. You can name it anything you want.
It contains some basic constant data that your application needs, such as database login and other setup information.
The following is an example of a NoGap
configuration. It requires at least two entries:
baseFolder
- This is the folder, relative to your application (e.g.
app.js
) where you defined all NoGap components.
- This is the folder, relative to your application (e.g.
files
- The actual component files (sans ".js"). Whenever you add a component, don't forget to list it here!
Optional Configuration parameters
publicFolder
(Default =pub/
)- The folder to find all client asset files that cannot be found relative to a component.
- Usually this is used to store client-only and shared javascript libraries that do not have
NoGap
support (they are not defined as components). lazyLoad
(Default = true)- Wether you want to explicitly send each component's client side to clients when necessary.
endpointImplementation
(set of options to configure the transport layer)name
(Default =HttpPost
)- Currently, only POST is available. Websockets will follow soon.
- You can also implement your own transport layer if you want, but you probably don't.
- If you are interested into the dirty details, have a look at
HttpPostImpl
inComponentCommunications.js
- TODO: Tracing, logging + customized error handling
Example Config
"nogap": {
"baseFolder" : "components",
"publicFolder" : "pub",
"files" : [
// list all components here:
// utilities
"ValidationUtil",
// pages for guests
"Guest",
// pages for users
"Main",
"Home"
]
}
package.json
This is the standard Node
configuration file. Here you can declare your app's basic metadata and, most importantly, your dependencies.
If you need one of the thousands over thousands of publicly available Node
modules, two steps are required:
- Add their name and your preferred version to
dependencies
- Run
npm install
Done. Now the new module is available in your code via:
var someModule = require('some-module');
where some-module
is the name you gave it in the package.json file.
Check out NPM JS to see all available modules.
Debuggability & security
By default, each Client
only receives Client
and Base
definitions. Host
-only code is not available to the client. However, the names of absolute file paths are sent to the client to facilitate perfect debugging; i.e. all stacktraces and the debugger will refer to the correct line inside the actual host-resident component file. If that is of concern to you, let me know, and I'll move up TODO priority of name scrambling, or have a look at ComponentDef
's FactoryDef
, and the corresponding def*
methods yourself.
Important Terms
TODO: Add links + more terms.
- Component
- Host
- Client
- Endpoint (refers to Client or Host)
- Base (merged into Client and Host)
- Shared (set of all component singletons)
- Instance (set of all component instance objects, exist each once per connected client)
- Tools (set of functions to assist managing of components)
- Asset (an asset is content data, such as HTML and CSS code, images and more)
- more...
Final Words
Good luck! In case of any questions, feel free to contact me.