Fluid router specially designed for complex page transitions and granular UI animations.
But not only that.
# node
npm install ways # --save, --save-dev
# bower
bower install ways # --save, --save-dev
# meteor
meteor add arboleya:ways # <- Ways is exported with a **capital** W!
Basic signature is ways(pattern, handler)
.
In Meteor, consider
Ways
is exported with a capitalW
.
var ways = require('ways');
// simple route
ways('/pages', function(req){
// req.pattern, req.url, req.params
});
// named params
ways('/pages/:id', handler);
// splat params
ways('/pages/:id/tags/*tags', handler);
// optional params
ways('/pages/:id?', handler);
ways('/pages/:id?/tags/*tags?', handler);
// match-all
ways('*', handler);
// initialize with current url
ways.go(ways.pathname());
By default Ways
doesn't offers support for /pushState
and #hash
, there's
no browser dependency whatsoever. Therefore you can use it wherever you want
to, even on the server. Or keep in the client, but without affecting urls.
However, sometimes you'll want to activate addressbar support, like this:
// activate addressbar support
ways.use(ways.addressbar);
And you're done.
Redirects app.
// ways.go(url, [title, [state]]);
ways.go('/pages');
ways.go('/pages', 'Page Title');
ways.go('/pages', 'Page Title', {foo: 'bar'});
Same as ways.go
, but in silent mode, without triggering any route.
// ways.go.silent(url, [title, [state]]);
ways.go.silent('/pages');
ways.go.silent('/pages', 'Page Title');
ways.go.silent('/pages', 'Page Title', {foo: 'bar'});
Think about
go() = pushState
,go.silent() = replaceState
Gets current pathname.
// ways.pathname();
ways.go(ways.pathname());
Connect your routes altogheter, creating a dependency graph between them.
Lets say you have three routes:
ways('/a', function (req) { /* ... */ });
ways('/b', function (req) { /* ... */ });
ways('/c', function (req) { /* ... */ });
Now lets assume that /c
depends on /b
that depends on /a
.
So when we call /c
, we really want to execute:
- First
/a
- Then
/b
- And finally
/c
That's what flow based mode would do for you.
And more:
- Routes' execution occurs asynchronously and sequentially
- Dependency chain is computed automatically, no more routes' hell
- Pack your projects with granular UI animations and complex page transitions
- Forget the
Layout <- View
paradigm, embrace theView <-> View
reality
TODO: Maybe explain wtf is
View <-> View
The passed mode tell the order things should run.
// ways.flow(mode);
ways.flow('destroy+run'); // destroy first, run after
ways.flow('run+destroy'); // run before, destroy after
Don't panic, continue reading.
In flow
mode, the routes can be run or destroyed and signature changes a
little. You must pass two handlers instead of one: a runner
and a destroyer
.
Optionally, you may also (most probably) pass a dependency
.
// ways(pattern, run, destroy, [dependency])
var ways = require('ways');
ways.flow('destroy+run');
function run(req, done){
console.log('rendering', req);
done();
}
function destroy(req, done){
console.log('destroying', req);
done();
}
ways('/', run, destroy);
ways('/pages/:id', run, destroy, '/'); // [1]
ways('/pages/:id/edit', run, destroy, '/pages/:id'); // [2]
// [1] 'pages/:id' depends on '/'
// [2] '/pages/:id/edit' depends on '/pages/:id'
Both handlers (run
and destroy
) will receive two params when called:
req
- infos about the requestdone
- callback to be called when route finishes running or destroying
Lets take a look at a full example:
var ways = require('ways');
ways.flow('destroy+run');
var running = '+ RUN url=%s, pattern=%s, params='
var destroying = '- DESTROY url=%s, pattern=%s, params='
var run = function(req, done) {
console.log(running, req.url, req.pattern, req.params);
done();
};
var destroy = function(req, done) {
console.log(destroying, req.url, req.pattern, req.params);
done();
};
ways('/', run, destroy);
ways('/pages', run, destroy, '/');
ways('/pages/:id', run, destroy, '/pages');
ways('/pages/:id/edit', run, destroy, '/pages/:id');
ways('*', run, destroy); // <- this is a catch all
Ok, now lets start our navigation:
// pretend our firt and current url is '/pages/33/edit',
// we'll use `ways.pathname()` to get it
ways.go(ways.pathname());
This will produce the following output:
+ RUN url='/', pattern='/', params= Object {}
+ RUN url='/pages', pattern='/pages', params= Object {}
+ RUN url='/pages/33', pattern='/pages/:id', params= Object {id: "33"}
+ RUN url='/pages/33/edit', pattern='/pages/:id/edit', params= Object {id: "33"}
At the beggining there's no route to be destroyed, so the dependency chain is computed and every route gets executed, one after another, asynchronously.
ways.go('/pages/22/edit');
This will produce the following output:
- DESTROY url='/pages/33/edit', pattern='/pages/:id/edit', params= Object {id: "33"}
- DESTROY url='/pages/33', pattern='/pages/:id', params= Object {id: "33"}
+ RUN url='/pages/22', pattern='/pages/:id', params= Object {id: "22"}
+ RUN url='/pages/22/edit', pattern='/pages/:id/edit', params= Object {id: "22"}
Here we have two routes being destroyed before running the new ones, this is computed again based on the dependency chain. In this case, useless routes are
destroyed
before running the new ones, the opposite is achieved by passing the moderun+destroy
.
ways.go('/any/route/here');
This will produce the following output:
- DESTROY url='/pages/22/edit', pattern='/pages/:id/edit', params= Object {id: "22"}
- DESTROY url='/pages/22', pattern='/pages/:id', params= Object {id: "22"}
- DESTROY url='/pages', pattern='/pages', params= Object {}
- DESTROY url='/', pattern='/', params= Object {}
+ RUN url='/any/thing/here', pattern='*', params= Object {}
As the route in question here has no dependencies, note that every other route needs to be destroyed before it runs.
There's only one global event you can listen to.
ways.on('url:change', function(url){
console.log('current url is', url);
});
A simple way to have restricted urls would be like:
function auth(done){
// your logic here
done(true);
}
function restrict(action) {
return function(req, done) {
auth(function(authorized) {
if(!authorized)
ways.go('/login');
else
action(req, done);
});
}
}
ways('/pages/secret', restrict(run), destroy)
The MIT License (MIT)
Copyright (c) 2013 Anderson Arboleya
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.