I have a UIView which is placed on the screen via several constraints. Some of the constraints are owned by the superview, others are owned by other ancestors (e.g. perhaps the view property of a UIViewController).
I want to remove all of these old constraints, and place it somewhere new using new constraints.
How can I do this without creating an IBOutlet for every single constraint and having to remember which view owns said constraint?
To elaborate, the naive approach would be to create a bunch of IBOutlets for each of the constraints, and would then involve calling code such as:
[viewA removeConstraint:self.myViewsLeftConstraint]; [viewB removeConstraint:self.myViewsTopConstraint]; [viewB removeConstraint:self.myViewsBottomConstraint]; [self.view removeConstraint:self.myViewsRightConstraint];
The problem with this code is that even in the simplest case, I would need to create 2 IBOutlets. For complex layouts, this could easily reach 4 or 8 required IBOutlets. Furthermore, I would need to ensure that my call to remove the constraint is being called on the proper view. For example, imagine that
myViewsLeftConstraint is owned by
viewA. If I were to accidentally call
[self.view removeConstraint:self.myViewsLeftConstraint], nothing would happen.
Note: The method constraintsAffectingLayoutForAxis looks promising, but is intended for debugging purposes only.
Update: Many of the answers I am receiving deal with
self.superview.constraints, or some variant of those. These solutions won't work since those methods return only the constraints owned by the view, not the ones affecting the view.
To clarify the problem with these solutions, consider this view hierarchy:
Now imagine we create the following constraints, and always attach them to their nearest common ancestor:
- C0: Me: same top as Son (owned by Me)
- C1: Me: width = 100 (owned by Me)
- C2: Me: same height as Brother (owned by Father)
- C3: Me: same top as Uncle (owned by Grandfather)
- C4: Me: same left as Grandfather (owned by Grandfather)
- C5: Brother: same left as Father (owned by Father)
- C6: Uncle: same left as Grandfather (owned by Grandfather)
- C7: Son: same left as Daughter (owned by Me)
Now imagine we want to remove all constraints affecting
Me. Any proper solution should remove
[C0,C1,C2,C3,C4] and nothing else.
If I use
self.constraints (where self is Me), I will get
[C0,C1,C7], since those are the only constraints owned by Me. Obviously it wouldn't be enough to remove this since it is missing
[C2,C3,C4]. Furthermore, it is removing
If I use
self.superview.constraints (where self is Me), I will get
[C2,C5], since those are the constraints owned by Father. Obviously we cannot remove all these since
C5 is completely unrelated to
If I use
grandfather.constraints, I will get
[C3,C4,C6]. Again, we cannot remove all of these since
C6 should remain intact.
The brute force approach is to loop over each of the view's ancestors (including itself), and seeing if
secondItem are the view itself; if so, remove that constraint. This will lead to a correct solution, returning
[C0,C1,C2,C3,C4], and only those constraints.
However, I'm hoping there is a more elegant solution than having to loop through the entire list of ancestors.