Setting the priority and terminal options is not about erasing directives, it's declaring the order of compilation and linking. Everybody points to ng-repeat as the prime example of priority + terminal + transclude, so I'll give a extremely simplified version of ng-repeat:
app.directive('fakeRepeat', function($log) {
return {
priority: 1000,
terminal: true,
transclude: 'element',
compile: function(el, attr, linker) {
return function(scope, $element, $attr) {
angular.forEach(scope.$eval($attr.fakeRepeat).reverse(), function(x) {
var child = scope.$new();
child[attr.binding] = x;
linker(child, function(clone) {
$element.after(clone);
})
})
}
}
}
});
The fake repeat directive can be used as so:
<ul>
<li fake-repeat="things" binding="t" add-letter>{{ t }}</li>
<ul>
Now extra directives can be attached to the same li that contains fake repeat, but their priority + terminal options will determine who gets compiled first, and when linking happens. Normally we expect the li
element to be cloned and for and for the add-letter
directive to be copied for each binding t
, but that will only happen if add-letter
has a lower priority than fake-repeat.
Case 1: add-letter priority is 0
Linking is executed for each li
generated.
Case 2: add-letter priority is 1001
Linking is executed before fake-repeat and thus before the transclude happens.
Case 3: add-letter priority is 1001 and terminal is true
Compilation stops before fake-repeat so the directive is never executed.
Here is a plunker with console logging for further exploration.