How To Fix Xcode 4

People are sort of tired of me complaining; I’ve been saying I hate Xcode 4 since the first time I used it. “You’ll get used to it!”, “Learn Behaviors and everything will be well”, “Embrace the new UI model”, they said. I’ve been using it exclusively for several months now, trying to explore and use every feature of it; make sure to try to find a way in which I can confidently work in it. I failed. Launching Xcode 3 is a fresh breeze every time.

Just a note up front: I’m not saying Xcode 4 sucks. It is light-years ahead of Xcode 3 in many ways, particularly autocompletion and the IDEs idea of what the code contains (inline warnings and errors as you type is wonderful). This is just about the way it manages windows and tabs. And even then, maybe there is some mode or usage pattern that I don’t know about and would fit me better — if so, please shout in the comment or to my twitter!

Spatial Thinking

Xcode 4 works fantastically for a lot of people. How am I special? Why do I have to try to be so different all the time? Apart from just generally being an annoying sod, I imagine myself being a spatial thinker; I like to think in terms of spatially organizing whatever concepts I’m working with. I loved Classic Mac OS’ spatial Finder, where windows always appeared at the same location were it did last time, and there was a one-to-one mapping between folder and window.

The same goes for me and source code files. I used to work in Condensed Mode in XC 3; a single thin window with a project file listing, all source windows separate, and then dedicated slots for Build and Run windows on a separate screen (together with a terminal or two). I would work with a dozen source files at the same time, placing them around the screen. When I needed one I used recently, I would know where it would be spatially, and could just click a tiny corner or edge peeking out beneath whatever I was working on(1). This way I could also layer other applications in between windows, and have a rather deep pile of things I’m working on. It’s the classic desktop metaphor, and the main argument against Multiple Document Interfaces (MDIs) that we Mac nerds would ridicule Windows users for having to use every day(2).

You might be able to imagine why XC4 would then be a problem for me, with everything in a single window, everything appearing in the exact same location on screen as you instead switch between modes of operation in one screen area, rather than switching between locations and zones on the screen. It was — and is — a complete disaster for my productivity. I spend so much time switching between contexts nowadays, trying to reorient myself.

Staying In the Past?

Trying to work in an Xcode 3 manner in Xcode 4 is worse than just trying to adapt.

One of the best features of Xcode 3 is that it would remember all the open windows of a project when you closed it. In Xcode 4, closing a window is terminating it and its layout forever, and the last window you happen to close will become the main project window. Oh, you accidentally closed the window *you* consider the main window first, and then you had a reference header in a window configured for reading reference headers still open on another screen? Well, I guess that’s your main window now, and you’ll just need to reconfigure it as your main. (Update: There is in fact “Close project” in File which will remember all the windows. This doesn’t help in the situation where you close one window forgetting that you had two open though, which is quite common.)

Want a separate window for your build progress so you can keep track of what’s actually happening in your builds? That’s in a sidebar now, and if you actually want build details, you have to manually choose the latest build results in *another* sidebar, and then switch back to the first sidebar.

Want a separate window for your console output? Hey, there’s this hack where you can name a tab “console”, bring up the debug lower-pane, set that pane to console output, make the pane fill the window, turn off the left-and-right sidebars, drag the tab out to its on window. Remember to put it back in its tab before closing the window though, or it’ll become your project!

OK, this is not working.

Trying To Adapt

The way I work now is to have everything I used to have in separate windows, in separate tabs; and have Behaviors set to switch to them at appropriate times. I have one Build tab and one Debug tab, set up in a pretty nice way. I mean, this is okay, I can work this way. However, I do lose my focus a lot of the time, and I get lost trying to context switch between tabs. And I need to set this up for every project I start working on. And I can’t really use my secondary monitor for the things I like and used to do. And it’s just a pain.

Fixing Shit

Why alienate all spatial thinking developers from the Mac and iOS developer communies? I can absolutely imagine Condensed Mode working in Xcode 4. The concept of optional sidebars everywhere could still work. I’d just want to pull out the Project navigator sidebar into its own window which becomes the ‘project main’ (closing it closes all related windows); allow some of the more awkward sidebars like the Object Library to be a panel like in IB; have dedicated Build and Console windows; and have the IDE try to suggest the “one file per window” concept (but possibly allow browsing different files within one window is the user really wants to). I mocked up a horrible concept in Acorn, for your viewing pleasure:

This would make me very, very happy. Sure, it’d be half as “fast” as Xcode 3, it’d still forget how to autocomplete once a day, and crash pretty much every minute, but at least I could work with it.

Thanks to Brent Simmons for writing “The part of Xcode 4 that tires me out”, finally triggering me to write this post.

Low Verbosity KVO

DRY Cocoa: SPLowVerbosity

I love Objective-C. It’s a very explicit language: there is no magic in the language. If you want such magic as distributed objects, model classes generated at runtime, generic change notification, or heck, even referenced counted memory management, you can implement it yourself in a library. It’s also by convention a very verbose language. If the method name doesn’t say exactly what the method does, the author is doing it wrong.

However, there are some things we type over and over again every day, whose verbosity does not make the code more readable but only serves to pad the code file with useless characters. These are in particular array and dictionary literals, and formatted strings.

ObjC wizard Jens Alfke wrote MYUtilities quite a while ago, and in particular CollectionUtils. This header defines a few very handy macros such as $array(...), $dict(...) and $sprintf(...). $array is simply a shorthand for [NSArray arrayWithObjects:..., nil] (note the extra nil, freeing you from typing that yourself every time, and also avoiding a possible crash). $dict is NSDictionary’s constructor, with the arguments in the right order (key, value, key, value, …). $sprintf is [NSString stringWithFormat:]. It may seem trivial, but this simple header has saved me tons and tons of typing, and surely from some silly bugs as well.

For more C++ friendliness, and to not have to depend on the rest of MYUtilities, I wrote my own, called SPLowVerbosity, with mostly the same things. The details are not interesting, so I won’t list the code; click through if you are curious.

This is a hack, and while it is very convenient, it is not pretty. Objective-C needs in-language literals for arrays, sets, dictionaries and number objects.

I do believe that such literals are now inevitable, though. With ARC, what I wrote in the first paragraph is no longer entirely true. Dealloc now magically calls super. Memory management is implicit and part of the language, not explicit and manual. The sanctity of Objective-C’s simplicity has been violated, parts of Cocoa has been moved into the language. Moving more parts of Cocoa into the language (e g exposing APIs saying ‘this is the class that should be instantiated when I use a dictionary literal’) no longer has a high religious price, and I bet we’ll see it at next year’s WWDC.

Object-Oriented KVO: SPKVONotificationCenter

During the past few years, my nose has started to really pick up on a code smell I didn’t feel before: unencapsulated concepts. What I mean by that is an API concept or contract that is only visible in comments and documentation, thus only implicit by knowledge of that documentation when you read code using the API, instead of exposing the concept as a construct the language can help you manage.

Examples:

• Mutex locking as two separate functions that must always be paired. This is an easy to make mistake, and can be very difficult to fix in complexly branching code. Static analyzation can find such errors, but is in my opinion the wrong approach.
• UITableView’s beginUpdates/endUpdates must always be called in a pair, and all the updates you make in that pair must match the changes you are doing to the data source.
• NSNotificationCenter requires you to register for a notification with a {sender, receiver, name} triplet, and reuse that triplet to destroy the subscription. In practice what you have here is an implicit object that you must manage using an awkward object triplet, rather than an actual object.
• Key-Value Observing, with the same defect as with notifications, plus that callbacks are dispatched to the same instance method, forcing you to use the triplet plus a context pointer as the identifier again.

Instead of the above concepts being implicit and only visible in documentation, several of them can be represented as objects and closures, thus making it impossible to do wrong.

The realization is not new, of course. It’s quite common to use RAII patterns in C++ to encapsulate concepts in code, giving them an explicit start point and a managed (and deterministic) end point.

But this is Objective-C, not C++, so we don’t have RAII. We do have objects, however, and if we use them to actually represent our objects, we can clean up so much code.

SPKVOObservation is an object that represents a KVO subscription. When this object is created, you know you have your subscription. When this object disappears, you know the subscription is gone. By managing instances of this class like I would any other instance variable, I know I’m following KVO’s subscribe/unsubscribe contract. (With ARC, I don’t even have to manage the ivar).

SPKVONotificationCenter also has dispatch to a given selector instead of the catch-all -[NSObject observeValueForKeyPath:ofObject:change:context:].

(As for solutions for the rest of the examples: a closure can be used for the mutex case if in the current scope, otherwise you might want RAII (which is possible with GNU extensions even in C). For the table view, I’d prefer bindings, but doing to-many KVO and bindings can be really hard, so I doubt we’ll be seeing it on iOS in the near future.)

DRY KVO: SPDepends

I love KVO. Basically every library I’ve ever used has their own implementation of notifications on attribute changes. Such an implementation is of course not difficult, but because there is no generic system for it in other languages/platforms, you can’t build a framework for working with change notifications generically. Recognizing that this is a generic concept, and then as good as building it into the language is genius, and has given us wonders such as bindings.

Outside of their use in bindings where you have tool help, KVO’s API is pretty bad, and working with it is almost painfully verbose (made worse by the single callback point, spreading your code out all over the file). What I really wanted to do was to unify the two above sections for a very simple, non-verbose and object oriented approach to KVO. The result is SPDepends. Magic is taken to the next level; we are approaching dark arts. Whether what I’m about to present is actually a good idea or not, I leave as an exercise for the reader. First, the header:

tl;dr: SPDepends lets you give it a list of {object, key path(s)} pairs that one of your properties depend on. When the value of any of the given key paths changes, a given closure is called, letting you recalculate the dependent property (or whatever you want to do). It’s about as far as you can go with KVO without actually building bindings.

There is one additional piece of magic related to memory management (this was before ARC). By providing an owner and associationName, the dependency is assigned as an associatedObject, so that it will automatically be cleaned up when the owner object dies. Defining a dependency again with the same name will also throw away the old dependency. If this is not desired, you can just not provide the association name, and instead manage the returned SPKVOObservation object on your own.

Example:

Output:

Note how short the $depends macro makes all your KVO work. The macro also defines a block-safe self variable selff that won’t create a reference cycle.

The equivalent classical KVO code would be many lines longer. However, this macro takes several steps away from how Cocoa code is normally written. Is the syntax too obscure? Is the code still readable for normal human beings?