- Refactored NMView to support formalized layout management and provided NMExplicitLayoutManager and NMGridLayoutManager as initial samples for custom layout managers. NMExplicitLayoutManager is the default layouting behavior of an NMView.
Apple has gone a long way making it easy for iOS developers to create complex UIs, thanks to Interface Builder. Create a UIViewController, choose to create a nib file along with it and start editing away using all the pre-built UIView components provided out of the box: UIButton, UILabel, UIScrollView, UITableView and friends simplify your life. Interface Builds allows you to arrange the components the way you see fit, change their properties and wire them to IBOutlets and IBActions.
For creating a UIView component yourself, however, there is no standard way of using Interface Builder to graphically create the layout of your component. You are left to write many lines of code to arrange existing components into view hierarchies, change their properties only to notice that what you wrote in code did not lead to the intended layout. This process is tedious and convincing people to create their own UIView component is difficult since creating them is no fun.
To simplify the process of implementing UIView components, we've created NMView. NMView is a UIView subclass which defines a standard mechanism of associating a nib file with the view and how its contents are loaded into the view. Additionally, it provides advanced features like specifying different view layouts (eg. landscape vs. portrait) in the nib file which can either manually or automatically be activated based on the aspect ratio of the view.
After we've successfully used NMView in a couple of projects, we're finally releasing its source under the BSD license!
A full Xcode project! Open in Xcode, browse the project's groups, select one of the available targets and run in iOS Simulator to get a feeling for what NMView can achieve. Then start digging into the samples to see how things are working. I tried to document the samples in detail and also added comments to the NMView class itself.
The project contains NMView and the required classes in the Libraries/NMView folder. Just copy the whole directory into your own project and start creating NMView subclasses.
Have a look at the NMView subclasses in the different Samples groups. Each sample showcases a specific NMView feature and can serve as a reference for your own NMView subclass implementation.
Sergei (who has been working extensively with NMView in the last couple of weeks) provides us with more details about the ideas behind NMView and its usage.
The basic idea is that an NMView subclass works like a mini-view controller, possibly with its own nib file and its own logic. For a very easy start, there are only a few basic steps you need to take:
- Create an NMView subclass
- Create an empty nib file (using New File -> iOS: User Interface -> Empty Xib) with the same name that your NMView subclass has
- Add a view to your nib and start building the layout of your view
- Add a UIView to one of your controllers, changing its type to your specific NMView subclass in Interface Builder's Identity Inspector
- Done! Launch the app and notice that the view shows up in your view controller the way you defined it to look in your nib file
The sample "Load From NIB" showcases this.
Previously, NMView only supported a single means of updating the view's contents based on a change of the view's bounds: using alternative layouts defined in the nib that the NMView was loaded from. Now, this managements of alternative layouts has been formalized into NMViewLayoutManager and its subclass NMExplicitLayoutManager.
Additionally, another NMViewLayoutManager subclass has been created which facilitates layouting the subviews of an NMView into a grid structure.
Layout managers themselves are objects that are not dependent on NMView and can be re-used in different scenarios.
Also, an NMView makes it easier to automatically rotate between interface orientations. To implement this, the nib file should have several top-level views of class NMViewLayoutView. (See AutomaticLayoutChangesView.xib for an example.) Whenever the frame on the NMView object changes, the view will adjust its layout by finding the new aspect ratio and selecting the most closely matching layout. Since the alternative layouts are created in the Interface Builder, you don't need to write very much code by hand.
A notable exception is when some UIImageViews need to use different bitmaps in portrait and landscape layouts. In that case, the bitmaps need to be assigned explicitly in the overridden method -layoutDidChangeToAspectRatio:.
It is important to keep in mind that only the first view in the nib file is really used in your application. All alternative layout views are used only to assign frames to subviews of the first view. If some view needs to have a red background in portrait but green in landscape, this needs to be coded in -layoutDidChangeToAspectRatio: by hand. The code in the present version of NMview will ignore the background color set in the nib file for alternative views. Any other properties of the alternative views are also ignored.
It is important to know that the NMView object does not get orientation change messages. An NMView object is not a view controller but is a UIView subclass and will usually be the view of some UIViewController. On rotation, the controller will resize its view, and NMView will get a frame change. If the automatic layout change is enabled, the function layoutSubviewsIfNecessary will be called and will perhaps select another layout. If the automatic layout change is disabled, the function layoutSubviewsIfNecessary will not be called, and the layout will not be changed automatically. You can call this function yourself in the controller's –willAnimateRotationToInterfaceOrientation:duration:.
The reason that we have the possibility to disable the automatic layout change is the following: When some of the subviews are animated (e.g. an animated button) such that the transform is changed on a subview (e.g. scale or rotation is changed), it turns out that layoutSubviews is called on the superview at each animation. When the automatic layout change is enabled, this leads to the breakdown of the animation since NMView will set the frame the subview to the initial position while that subview is being animated. For this reason, the automatic layout change must be disabled if any direct subviews of NMView are being scaled or rotated through a Core Animation.
If you come across the need to dynamically display content in your view that has the same layout across all the different instances of your data, you might want to have a look at view templates.
In the UIView+NMTemplating.h / .m category, the -applyViewTemplate: method allows you to apply all the properties and subviews of the view that is passed in as the parameter to the receiver of the method call. When the call finishes, the receiver looks exactly the way specified in your view template. You can now go ahead and configure the new view with the data and add it to your view.
As an alternative, you can always just create the template view as a regular UIView / NMView
subclass and create new instances of that class whenever you need to display new data. The advantage
of using view templates over custom NMView subclasses is loading time: whenever you create a new
NMView instance, the nib file is loaded from disk into memory. With a view template, you can specify
the template in the NMView's nib file, assign it via an IBOutlet to your NMView subclass and work
from that in-memory template. Creating a new instance of the template is a mere call to
[[[UIView alloc] initWithFrame:frame] applyViewTemplate:theTemplate]
.