Today, calling e.g. $http(url, { params: { a: [1,2,3] } }) results in a query
string like "?a=%5B1%2C2%2C3%5D" which is undesirable. This commit enhances
buildURL to createa query string like "?a=1&a=2&a=3".
BREAKING CHANGE: if the server relied on the buggy behavior then either the
backend should be fixed or a simple serialization of the array should be done
on the client before calling the $http service.
Closes#1363
Having a $resource defined as:
var R = $resource('/Path', {}, {
get: {method: 'GET', params: {objId: '1'}},
perform: {method: 'GET'}
});
was causing both actions to call the same URI (if called in this order):
R.get({}); // => /Path?objId=1
R.perform({}); // => /Path?objId=1
window.SecurityPolicy.isActive() is now window.securityPolicy.isActive
since this is available only in Chrome Canary which has already been
updated, we can safely make this change without worrying about
backwards compatilibty.
Closes#1577
Bug caused by the use of the `||` operator to replace all non-truthy
values with an empty string. Changed to replace only `undefined` values.
Closes#1401
Prefixed attributes like data-ng-model and x-ng-model were not being
found by the Selector. It was only looking at ng: and ng- prefixed
attributes.
Added a few tests as well to ensure the aforementioned prefixed
attributes are being matched properly.
Closes#1020
previously examples like $http where broken because we would strip part of the
filename (http-hello.html -> http)
we really want to strip only the id suffix that we append to disambiguate
common filenames (like index.html) which appear in many examples.
This fixes the issue that caused two attr interpolation observers
to be registered for the same attribute as a result of isolate
scope definition with attr (@) property for this attribute.
Duplicate observers would then fight with each other updating the
model.
The issue occured only when this directive was used in a repeater
because that's when we clone the template node which caused the
two observers to point to two different sets of $attr instances.
Closes#1166, #836
IEEE 754 floating point sometimes results in values that are very small,
rather than zero. One example is 1.0 + 1.07 - 2.07, which returns
4.440892098500626e-16 instead of 0.
This change tweaks the number formatting logic so that an exponential
value with a negative exponent that is larger than the precision+1
returns 0 instead. For example: with precision 2, anything with an
exponent of -4, -5 or more would become 0. 9e-3 = 0.009 = 0.01, but 9e-4
= 0.0009 = 0.001 = 0.00. This detail is unlikely to matter since this
quirk is usually only triggered with values very close to zero.
Closes#1469
