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ios - Specifying one Dimension of Cells in UICollectionView using Auto Layout

In iOS 8 the UICollectionViewFlowLayout supports automatically resizing cells based on their own content size. This resizes the cells in both width and height according to their content.

Is it possible to specify a fixed value for the width (or height) of all the cells and allow the other dimensions to resize?

For a simple example consider a multi-line label in a cell with constraints positioning it to the sides of the cell. The multi-line label could be resized different ways to accommodate the text. The cell should fill the width of the collection view and adjust it's height accordingly. Instead, the cells are sized haphazardly and it even causes a crash when the cell size is larger than the non-scrollable dimension of the collection view.


iOS 8 introduces the method systemLayoutSizeFittingSize: withHorizontalFittingPriority: verticalFittingPriority: For each cell in the collection view the layout calls this method on the cell, passing in the estimated size. What would make sense to me would be to override this method on the cell, pass in the size that is given and set the horizontal constraint to required and a low priority to the vertical constraint. This way the horizontal size is fixed to the value set in the layout and the vertical size can be flexible.

Something like this:

- (UICollectionViewLayoutAttributes *)preferredLayoutAttributesFittingAttributes:(UICollectionViewLayoutAttributes *)layoutAttributes {
    UICollectionViewLayoutAttributes *attributes = [super preferredLayoutAttributesFittingAttributes:layoutAttributes];
    attributes.size = [self systemLayoutSizeFittingSize:layoutAttributes.size withHorizontalFittingPriority:UILayoutPriorityRequired verticalFittingPriority:UILayoutPriorityFittingSizeLevel];
    return attributes;
}

The sizes given back by this method, however, are completely strange. The documentation on this method is very unclear to me and mentions using the constants UILayoutFittingCompressedSize UILayoutFittingExpandedSize which just represent a zero size and a pretty large one.

Is the size parameter of this method really just a way to pass in two constants? Is there no way to achieve the behavior I expect of getting the appropriate height for a given size?


Alternate Solutions

1) Adding constraints that will be specify a specific width for the cell achieves the correct layout. This is a poor solution because that constraint should be set to the size of the cell's collection view which it has no safe reference to. The value for that constraint could be passed in when the cell is configured, but that also seems completely counterintuitive. This is also awkward because adding constraints directly to a cell or it's content view is causing many problems.

2) Use a table view. Table views work this way out of the box as cells have a fixed width, but this would not accommodate other situations like an iPad layout with fixed width cells in multiple columns.

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It sounds like what you are asking for is a way to use UICollectionView to produce a layout like UITableView. If that's really what you want, the right way to do this is with a custom UICollectionViewLayout subclass (maybe something like SBTableLayout).

On the other hand, if you're really asking if there is a clean way to do this with the default UICollectionViewFlowLayout, then I believe there is no way. Even with iOS8's self-sizing cells, it is not straightforward. The fundamental problem, as you say, is that the flow layout's machinery provides no way to fix one dimension and let another respond. (In addition, even if you could, there would be additional complexity around needing two layout passes to size the multi-line labels. This might not fit with how self-sizing cells want to compute all sizing via one call to systemLayoutSizeFittingSize.)

However, if you still want to create a tableview-like layout with a flow layout, with cells that determine their own size, and respond naturally to the collection view's width, of course it is possible. There is still the messy way. I have done it with a "sizing cell", i.e., a non-displayed UICollectionViewCell that the controller keeps only for calculating cell sizes.

There are two parts to this approach. The first part is for the collection view delegate to calculate the correct cell size, by taking in the collection view's width and using the sizing cell to calculate the cell's height.

In your UICollectionViewDelegateFlowLayout, you implement a method like this:

func collectionView(collectionView: UICollectionView,
  layout collectionViewLayout: UICollectionViewLayout,
  sizeForItemAtIndexPath indexPath: NSIndexPath) -> CGSize
{
  // NOTE: here is where we say we want cells to use the width of the collection view
   let requiredWidth = collectionView.bounds.size.width

   // NOTE: here is where we ask our sizing cell to compute what height it needs
  let targetSize = CGSize(width: requiredWidth, height: 0)
  /// NOTE: populate the sizing cell's contents so it can compute accurately
  self.sizingCell.label.text = items[indexPath.row]
  let adequateSize = self.sizingCell.preferredLayoutSizeFittingSize(targetSize)
  return adequateSize
}

This will cause the collection view to set the width of the cell based on the enclosing collection view, but then ask the sizing cell to calculate the height.

The second part is to get the sizing cell to use its own AL constraints to calculate the height. This can be harder than it should be, because of the way multi-line UILabel's effectively require a two-stage layout process. The work is done in the method preferredLayoutSizeFittingSize, which is like so:

 /*
 Computes the size the cell will need to be to fit within targetSize.

 targetSize should be used to pass in a width.

 the returned size will have the same width, and the height which is
 calculated by Auto Layout so that the contents of the cell (i.e., text in the label)
 can fit within that width.

 */
 func preferredLayoutSizeFittingSize(targetSize:CGSize) -> CGSize {

   // save original frame and preferredMaxLayoutWidth
   let originalFrame = self.frame
   let originalPreferredMaxLayoutWidth = self.label.preferredMaxLayoutWidth

   // assert: targetSize.width has the required width of the cell

   // step1: set the cell.frame to use that width
   var frame = self.frame
   frame.size = targetSize
   self.frame = frame

   // step2: layout the cell
   self.setNeedsLayout()
   self.layoutIfNeeded()
   self.label.preferredMaxLayoutWidth = self.label.bounds.size.width

   // assert: the label's bounds and preferredMaxLayoutWidth are set to the width required by the cell's width

   // step3: compute how tall the cell needs to be

   // this causes the cell to compute the height it needs, which it does by asking the 
   // label what height it needs to wrap within its current bounds (which we just set).
   let computedSize = self.systemLayoutSizeFittingSize(UILayoutFittingCompressedSize)

   // assert: computedSize has the needed height for the cell

   // Apple: "Only consider the height for cells, because the contentView isn't anchored correctly sometimes."
   let newSize = CGSize(width:targetSize.width,height:computedSize.height)

   // restore old frame and preferredMaxLayoutWidth
   self.frame = originalFrame
   self.label.preferredMaxLayoutWidth = originalPreferredMaxLayoutWidth

   return newSize
 }

(This code is adapted from the Apple sample code from the sample code of the WWDC2014 session on "Advanced Collection View".)

A couple points to notice. It's using layoutIfNeeded() to force layout of the entire cell, in order to compute and set the width of the label. But that's not enough. I believe you also need to set preferredMaxLayoutWidth so that the label will use that width with Auto Layout. And only then can you use systemLayoutSizeFittingSize in order to get the cell to compute its height while taking the label into account.

Do I like this approach? No!! It feels way too complex, and it does layout twice. But as long as performance doesn't become an issue, I'd rather perform layout twice at runtime than have to define it twice in code, which seems to be the only other alternative.

My hope is that eventually self-sizing cells will work differently and this will all get a lot simpler.

Example project showing it at work.

But why not just use self-sizing cells?

In theory, iOS8's new facilities for "self-sizing cells" should make this unnecessary. If you've defined a cell with Auto Layout (AL), then the collection view should be smart enough to let it size itself and lay itself out correctly. In practice, I haven't seen any examples that have gotten this to work with multi-line labels. I think this is partly because the self-sizing cell mechanism is still buggy.

But I'd bet it's mostly because of the usual trickiness of Auto Layout and labels, which is that UILabels require a basically two-step layout process. It's not clear to me how you can perform both steps with self-sizing cells.

And like I said, this is really a job for a different layout. It is part of flow layout's essence that it positions things that have a size, rather than fixes a width and lets them choose their height.

And what about preferredLayoutAttributesFittingAttributes: ?

The preferredLayoutAttributesFittingAttributes: method is a red herring, I think. That is only there to be used with the new self-sizing cell mechanism. So this isn't the answer as long as that mechanism is unreliable.

And what's up with systemlayoutSizeFittingSize:?

You're right the docs are confusing.

The docs on systemLayoutSizeFittingSize: and systemLayoutSizeFittingSize:withHorizontalFittingPriority:verticalFittingPriority: both suggest that you should only pass UILayoutFittingCompressedSize and UILayoutFittingExpandedSize as the targetSize. However, the method signature itself, the header comments, and the behavior of the functions indicate that they are responding to the exact value of the targetSize parameter.

In fact, if you set the UICollectionViewFlowLayoutDelegate.estimatedItemSize, in order to enable the new self-sizing cell mechanism, that value seems to get passed in as the targetSize. And UILabel.systemLayoutSizeFittingSize seems to return the exact same values as UILabel.sizeThatFits. This is suspicious, given that the argument to systemLayoutSizeFittingSize is supposed to be a rough target and the argument to sizeThatFits: is supposed to be a maximum circumscribing size.

More Resources

While it is sad to think that such a routine requirement should require "research resources", I think it does. Good examples and discussions are:


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