m.startComputation / m.endComputation
If you need to do custom asynchronous calls without using Mithril's API, and find that your views are not redrawing, or that you're being forced to call m.redraw
manually, you should consider using m.startComputation
/ m.endComputation
so that Mithril can intelligently auto-redraw once your custom code finishes running.
In order to integrate an asynchronous code to Mithril's autoredrawing system, you should call m.startComputation
BEFORE making an asynchronous call, and m.endComputation
after the asynchronous callback completes.
//this service waits 1 second, logs "hello" and then notifies the view that
//it may start redrawing (if no other asynchronous operations are pending)
var doStuff = function() {
m.startComputation(); //call `startComputation` before the asynchronous `setTimeout`
setTimeout(function() {
console.log("hello");
m.endComputation(); //call `endComputation` at the end of the callback
}, 1000);
};
To integrate synchronous code, call m.startComputation
at the beginning of the method, and m.endComputation
at the end.
window.onfocus = function() {
m.startComputation(); //call before everything else in the event handler
doStuff();
m.endComputation(); //call after everything else in the event handler
}
For each m.startComputation
call a library makes, it MUST also make one and ONLY one corresponding m.endComputation
call.
You should not use these methods if your code is intended to run repeatedly (e.g. by using setInterval
). If you want to repeatedly redraw the view without necessarily waiting for user input, you should manually call m.redraw
within the repeatable context.
Integrating multiple execution threads
When integrating with third party libraries, you might find that you need to call asynchronous methods from outside of Mithril's API.
In order to integrate non-trivial asynchronous code to Mithril's auto-redrawing system, you need to ensure all execution threads call m.startComputation
/ m.endComputation
.
An execution thread is basically any amount of code that runs before other asynchronous threads start to run.
Integrating multiple execution threads can be done in a two different ways: in a layered fashion or in comprehensive fashion
Layered integration
Layered integration is recommended for modular code where many different APIs may be put together at the application level.
Below is an example where various methods implemented with a third party library can be integrated in layered fashion: any of the methods can be used in isolation or in combination.
Notice how doBoth
repeatedly calls m.startComputation
since that method calls both doSomething
and doAnother
. This is perfectly valid: there are three asynchronous computations pending after the jQuery.when
method is called, and therefore, three pairs of m.startComputation
/ m.endComputation
in play.
var doSomething = function(callback) {
m.startComputation(); //call `startComputation` before the asynchronous AJAX request
return jQuery.ajax("/something").done(function() {
if (callback) callback();
m.endComputation(); //call `endComputation` at the end of the callback
});
};
var doAnother = function(callback) {
m.startComputation(); //call `startComputation` before the asynchronous AJAX request
return jQuery.ajax("/another").done(function() {
if (callback) callback();
m.endComputation(); //call `endComputation` at the end of the callback
});
};
var doBoth = function(callback) {
m.startComputation(); //call `startComputation` before the asynchronous synchronization method
jQuery.when(doSomething(), doAnother()).then(function() {
if (callback) callback();
m.endComputation(); //call `endComputation` at the end of the callback
})
};
Comprehensive integration
Comprehensive integration is recommended if integrating a monolithic series of asynchronous operations. In contrast to layered integration, it minimizes the number of m.startComputation
/ m.endComputation
to avoid clutter.
The example below shows a convoluted series of AJAX requests implemented with a third party library.
var doSomething = function(callback) {
m.startComputation(); //call `startComputation` before everything else
jQuery.ajax("/something").done(function() {
doStuff();
jQuery.ajax("/another").done(function() {
doMoreStuff();
jQuery.ajax("/more").done(function() {
if (callback) callback();
m.endComputation(); //call `endComputation` at the end of everything
});
});
});
};
Signature
void startComputation()
void endComputation()