The frame of a view is the
rectangle, expressed as a location (x,y) and size (width,height) relative to
the superview it is contained within.
The bounds of a view is the rectangle, expressed as a
location (x,y) and size (width,height) relative to its own coordinate system
(0,0).
How would you create your own custom view?
Subclass the UIView class.
Whats a struct?
A struct is a special C data type
that encapsulates other pieces of data into a single cohesive unit. Like an
object, but built into C.
Whats the difference between a NSArray and a NSMutableArray?
A NSArray’s contents can not be
modified once it’s been created whereas a NSMutableArray can be modified as
needed, i.e items can be added/removed from it.
Is a delegate retained?
A:
No, the delegate is never retained! Ever!
Whats fast enumeration?
Fast enumeration is a language
feature that allows you to enumerate over the contents of a collection. (Your
code will also run faster because the internal implementation reduces message
send overhead and increases pipelining potential.)
Explain retain counts.
Retain counts are the way in which memory is
managed in Objective-C. When you create an object, it has a retain count of 1.
When you send an object a retain message, its retain count is incremented by 1.
When you send an object a release message, its retain count
is decremented by 1. When you send an object a autorelease message, its retain
count is decremented by 1 at some stage in the future. If an object’s retain
count is reduced to 0, it is deallocated.
INTERMEDIATE
If I call performSelector:withObject:afterDelay: – is the object
retained?
Yes the object is retained. It creates a timer that calls a selector on the
current threads run loop. It may not be 100% precise time-wise as it attempts
to dequeue the message from the run loop and perform the selector.
Can you explain what happens when you call autorelease on an
object?
When you send an object a
autorelease message, its retain count is decremented by 1 at some stage in the
future. The object is added to an autorelease pool on the current thread. The
main thread loop creates an autorelease pool at the beginning of the function,
and release it at the end. This establishes a pool for the lifetime of the
task. However, this also means that any autoreleased objects created during the
lifetime of the task are not disposed of until the task completes. This may
lead to the task’s memory footprint increasing unnecessarily. You can also
consider creating pools with a narrower scope or use NSOperationQueue with it’s
own autorelease pool. (Also important – You only release or autorelease objects
you own.)
Whats the NSCoder class used for?
NSCoder is an abstractClass which
represents a stream of data. They are used in Archiving and Unarchiving
objects. NSCoder objects are usually used in a method that is being implemented
so that the class conforms to the protocol. (which has something like
encodeObject and decodeObject methods in them).
Whats an NSOperationQueue and how/would you use it?
The NSOperationQueue class regulates the execution of a set of NSOperation
objects. An operation queue is generally used to perform some asynchronous
operations on a background thread so as not to block the main thread.
Explain the correct way to manage Outlets memory
Create them as properties in the
header that are retained. In the viewDidUnload set the outlets to nil(i.e
self.outlet = nil). Finally in dealloc make sure to release the outlet.
ADVANCED
Q: Is the
delegate for a CAAnimation retained?
A: Yes it is!! This is one of the rare exceptions to memory
management rules.
Q: What happens when the following
code executes?
Ball *ball = [[[[Ball alloc] init] autorelease] autorelease];
Ball *ball = [[[[Ball alloc] init] autorelease] autorelease];
A:
It will crash because it’s added twice to the autorelease pool and when it it
dequeued the autorelease pool calls release more than once.
Q: Outline the class
hierarchy for a UIButton until NSObject.
A: UIButton inherits from UIControl, UIControl inherits from
UIView, UIView inherits from UIResponder, UIResponder inherits from the root
class NSObject
Q: Explain the
difference between NSOperationQueue concurrent and non-concurrent.
A: In the context of an NSOperation object, which runs in an
NSOperationQueue, the terms concurrent and non-concurrent do not necessarily
refer to the side-by-side execution of threads. Instead, a non-concurrent
operation is one that executes using the environment that is provided for it
while a concurrent operation is responsible for setting up its own execution
environment.
Q: Implement your
own synthesized methods for the property NSString *title.
A: Well you would want to implement the getter and setter
for the title object. Something like this:
– (NSString*) title {
return title;
}
– (void) setTitle: (NSString*) newTitle {
if (newTitle != title) {
[title release];
title = [newTitle retain]; // Or copy, depending on your needs.
}
}
Q: Implement the following methods: retain, release, autorelease.
– (NSString*) title {
return title;
}
– (void) setTitle: (NSString*) newTitle {
if (newTitle != title) {
[title release];
title = [newTitle retain]; // Or copy, depending on your needs.
}
}
Q: Implement the following methods: retain, release, autorelease.
A:
-(id)retain {
NSIncrementExtraRefCount(self);
return self;
}
NSIncrementExtraRefCount(self);
return self;
}
-(void)release {
if(NSDecrementExtraRefCountWasZero(self)) {
NSDeallocateObject(self);
}
}
-(id)autorelease {
if(NSDecrementExtraRefCountWasZero(self)) {
NSDeallocateObject(self);
}
}
-(id)autorelease {
// Add the object to the autorelease pool
[NSAutoreleasePool addObject:self];
[NSAutoreleasePool addObject:self];
return self;
}
}
Development
Basics
Q1. Where can you test Apple iPhone apps if you don’t have
the device?
A. iOS Simulator can be used to test
mobile applications. Xcode tool that comes along with iOS SDK
includes Xcode IDE as well as the iOS Simulator. Xcode also includes all
required tools and frameworks for building iOS apps. However, it is
strongly recommended to test the app on the real device before publishing it.
Q2. Does iOS support multitasking?
A. iOS 4 and above supports multi-tasking and allows apps to remain in the background until they are launched again or until they are terminated.
A. iOS 4 and above supports multi-tasking and allows apps to remain in the background until they are launched again or until they are terminated.
Q3. Which JSON framework is
supported by iOS?
A. SBJson framework is supported by iOS. It is a JSON parser and generator for Objective-C. SBJson provides flexible APIs and additional control that makes JSON handling easier.
A. SBJson framework is supported by iOS. It is a JSON parser and generator for Objective-C. SBJson provides flexible APIs and additional control that makes JSON handling easier.
Q4. What are the tools required to
develop iOS applications?
A. iOS development requires Intel-based Macintosh computer and iOS SDK.
A. iOS development requires Intel-based Macintosh computer and iOS SDK.
Q5. Name the framework that is used
to construct application’s user interface for iOS.
A. The UIKit framework is used to develop application’s
user interface
for iOS. UIKit framework provides event handling, drawing model, windows,
views, and controls specifically designed for a touch screen interface.
A. The UIKit framework is used to develop application’s

Q6. Name the application thread from
where UIKit classes should be used?
A. UIKit classes should be used only from an application’s main thread. Note: The derived classes of UIResponder and the classes which manipulate application’s user interface should be used from application’s main thread.
A. UIKit classes should be used only from an application’s main thread. Note: The derived classes of UIResponder and the classes which manipulate application’s user interface should be used from application’s main thread.
Q7. Which API is used to write test
scripts that help in exercising the application's user interface elements?
A. UI
Automation API
is used to automate test procedures. Tests scripts are written in JavaScript to
the UI Automation API. This in turn simulates user interaction with the
application and returns log information to the host computer.
A. UI

Q8. Why an app on iOS device behaves
differently when running in foreground than in background?
A. An application behaves differently when running in foreground than in background because of the limitation of resources on iOS devices.
A. An application behaves differently when running in foreground than in background because of the limitation of resources on iOS devices.
Q9. How can an operating system
improve battery life while running an app?
A. An app is notified whenever the operating system moves the apps between foreground and background. The operating system improves battery life while it bounds what your app can do in the background. This also improves the user experience with foreground app.
A. An app is notified whenever the operating system moves the apps between foreground and background. The operating system improves battery life while it bounds what your app can do in the background. This also improves the user experience with foreground app.
Q10. Which framework delivers event
to custom object when app is in foreground?
A. The UIKit infrastructure takes care of delivering events to custom objects. As an app developer, you have to override methods in the appropriate objects to process those events.
A. The UIKit infrastructure takes care of delivering events to custom objects. As an app developer, you have to override methods in the appropriate objects to process those events.
Q11. When an app is said to be in
not running state?
A. An app is said to be in 'not running' state when:
- it is not launched.
- it gets terminated by the system during running.
A. An app is said to be in 'not running' state when:
- it is not launched.
- it gets terminated by the system during running.
Q12. Assume that your app is running
in the foreground but is currently not receiving events. In which sate it would
be in?
A. An app will be in InActive state if it is running in the foreground but is currently not receiving events. An app stays in InActive state only briefly as it transitions to a different state.
A. An app will be in InActive state if it is running in the foreground but is currently not receiving events. An app stays in InActive state only briefly as it transitions to a different state.
Q13. Give example scenarios when an
application goes into InActive state?
A. An app can get into InActive state when the user locks the screen or the system prompts the user to respond to some event e.g. SMS message, incoming call etc.
A. An app can get into InActive state when the user locks the screen or the system prompts the user to respond to some event e.g. SMS message, incoming call etc.
Q14. When an app is said to be in
active state?
A. An app is said to be in active state when it is running in foreground and is receiving events.
A. An app is said to be in active state when it is running in foreground and is receiving events.
Q15. Name the app sate which it
reaches briefly on its way to being suspended.
A. An app enters background state briefly on its way to being suspended.
A. An app enters background state briefly on its way to being suspended.
Q16. Assume that an app is not in
foreground but is still executing code. In which state will it be in?
A. Background state.
A. Background state.
Q17. An app is loaded into memory
but is not executing any code. In which state will it be in?
A. An app is said to be in suspended state when it is still in memory but is not executing any code.
A. An app is said to be in suspended state when it is still in memory but is not executing any code.
Q18. Assume that system is running
low on memory. What can system do for suspended apps?
A. In case system is running low on memory, the system may purge suspended apps without notice.
A. In case system is running low on memory, the system may purge suspended apps without notice.
Q19. How can you respond to state
transitions on your app?
A. On state transitions can be responded to state changes in an appropriate way by calling corresponding methods on app's delegate object.
A. On state transitions can be responded to state changes in an appropriate way by calling corresponding methods on app's delegate object.
For example:
applicationDidBecomeActive method can be used to prepare to run as the foreground app.
applicationDidEnterBackground method can be used to execute some code when app is running in the background and may be suspended at any time.
applicationWillEnterForeground method can be used to execute some code when your app is moving out of the background
applicationWillTerminate method is called when your app is being terminated.
applicationDidBecomeActive method can be used to prepare to run as the foreground app.
applicationDidEnterBackground method can be used to execute some code when app is running in the background and may be suspended at any time.
applicationWillEnterForeground method can be used to execute some code when your app is moving out of the background
applicationWillTerminate method is called when your app is being terminated.
Q20. List down app's state
transitions when it gets launched.
A. Before the launch of an app, it is said to be in not running state.
When an app is launched, it moves to the active or background state, after transitioning briefly through the inactive state.
A. Before the launch of an app, it is said to be in not running state.
When an app is launched, it moves to the active or background state, after transitioning briefly through the inactive state.
Q21. Who calls the main function of
you app during the app launch cycle?
A. During app launching, the system creates a main thread for the app and calls the app’s main function on that main thread. The Xcode project's default main function hands over control to the UIKit framework, which takes care of initializing the app before it is run.
A. During app launching, the system creates a main thread for the app and calls the app’s main function on that main thread. The Xcode project's default main function hands over control to the UIKit framework, which takes care of initializing the app before it is run.
Q22. What is the use of controller
object UIApplication?
A. Controller object UIApplication is used without subclassing to manage the application event loop.
It coordinates other high-level app behaviors.
It works along with the app delegate object which contains app-level logic.
A. Controller object UIApplication is used without subclassing to manage the application event loop.
It coordinates other high-level app behaviors.
It works along with the app delegate object which contains app-level logic.
Q23. Which object is create by
UIApplicationMain function at app launch time?
A. The app delegate object is created by UIApplicationMain function at app launch time. The app delegate object's main job is to handle state transitions within the app.
A. The app delegate object is created by UIApplicationMain function at app launch time. The app delegate object's main job is to handle state transitions within the app.
Q24. How is the app delegate is
declared by Xcode project templates?
A. App delegate is declared as a subclass of UIResponder by Xcode project templates.
A. App delegate is declared as a subclass of UIResponder by Xcode project templates.
Q25. What happens if IApplication
object does not handle an event?
A. In such case the event will be dispatched to your app delegate for processing.
A. In such case the event will be dispatched to your app delegate for processing.
Q26. Which app specific objects
store the app's content?
A. Data model objects are app specific objects and store app’s content. Apps can also use document objects to manage some or all of their data model objects.
A. Data model objects are app specific objects and store app’s content. Apps can also use document objects to manage some or all of their data model objects.
Q27. Are document objects required
for an application? What does they offer?
A. Document objects are not required but are very useful in grouping data that belongs in a single file or file package.
A. Document objects are not required but are very useful in grouping data that belongs in a single file or file package.
Q28. Which object manage the
presentation of app's content on the screen?
A. View controller objects takes care of the presentation of app's content on the screen. A view controller is used to manage a single view along with the collection of subviews. It makes its views visible by installing them in the app’s window.
A. View controller objects takes care of the presentation of app's content on the screen. A view controller is used to manage a single view along with the collection of subviews. It makes its views visible by installing them in the app’s window.
Q29. Which is the super class of all
view controller objects?
A. UIViewController class. The functionality for loading views, presenting them, rotating them in response to device rotations, and several other standard system behaviors are provided by UIViewController class.
A. UIViewController class. The functionality for loading views, presenting them, rotating them in response to device rotations, and several other standard system behaviors are provided by UIViewController class.
Q30. What is the purpose of UIWindow
object?
A. The presentation of one or more views on a screen is coordinated by UIWindow object.
A. The presentation of one or more views on a screen is coordinated by UIWindow object.
Q31. How do you change the content
of your app in order to change the views displayed in the corresponding window?
A. To change the content of your app, you use a view controller to change the views displayed in the corresponding window. Remember, window itself is never replaced.
A. To change the content of your app, you use a view controller to change the views displayed in the corresponding window. Remember, window itself is never replaced.
Q32. Define view object.
A. Views along with controls are used to provide visual representation of the app content. View is an object that draws content in a designated rectangular area and it responds to events within that area.
A. Views along with controls are used to provide visual representation of the app content. View is an object that draws content in a designated rectangular area and it responds to events within that area.
Q33. You wish to define your custom
view. Which class will be subclassed?
A. Custom views can be defined by subclassing UIView.
A. Custom views can be defined by subclassing UIView.
Q34. Apart from incorporating views
and controls, what else an app can incorporate?
A. Apart from incorporating views and controls, an app can also incorporate Core Animation layers into its view and control hierarchies.
A. Apart from incorporating views and controls, an app can also incorporate Core Animation layers into its view and control hierarchies.
Q35. What are layer objects and what
do they represent?
A. Layer objects are data objects which represent visual content. Layer objects are used by views to render their content. Custom layer objects can also be added to the interface to implement complex animations and other types of sophisticated visual effects.
A. Layer objects are data objects which represent visual content. Layer objects are used by views to render their content. Custom layer objects can also be added to the interface to implement complex animations and other types of sophisticated visual effects.
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