I recently came across this formatting for a .h header file. Can someone explain to me why this is done this way and what it means? In particular, I am confused about what is in the first set of braces/the repetition? How does this differ from if I were to delete the braces and everything between them?
#interface ACustomView : UIView
{
float chartWidth, chartHeight;
}
#property (nonatomic, readwrite) float chartWidth, chartHeight;
#end
How does this differ from if I were to delete the braces and everything between them?
A #property, of itself, is just a method declaration (or, in your case, two method declarations, a getter and a setter). Typically, you want those methods to be backed by actual instance variable which the getter and setter will get and set. That is what is declared in the curly braces.
Deleting the instance variable declarations in your code doesn't change very much, however, because the compiler will use your #property declaration to autosynthesize instance variables for you. In other words, you typically need instance variables backing a #property, but you don't need to declare them explicitly.
In your particular code, however, you have not shown enough information to reveal what's really going on. A lot depends on what you do (or don't do) in the corresponding .m file. If you say #synthesize for this #property, what is synthesized will be these instance variables, chartWidth and chartHeight. But if you don't say #synthesize, you'll get autosynthesis of instance variables _chartWidth and _chartHeight, and so now, if you also declare chartWidth and chartHeight instance variables explicitly, you'll have something of a mess on your hands.
Related
I have been unable to find any information on this topic and most of what I know about it has come by complete accident (and a few hours of trying to figure out why my code wasn't working). While learning objective-c most tutorials I have found make variables and properties with the same name. I don't understand the significance because it seems that the property does all the work and the variable just kind of sits there. For instance:
Test.h
#interface Test : NSObject {
int _timesPlayed, _highscore;
}
#property int timesPlayed, highscore;
// Methods and stuff
#end
Test.m
#implementation Test
#synthesize timesPlayed = _timesPlayed;
#synthesize highscore = _highscore;
// methods and stuff
#end
What I know
1) Okay so today I found out (after hours of confusion) that no matter how much changing you do to the properties highscore = 5091231 it won't change anything when you try to call [test highscore] as it will still be returning the value of _highscore which (I think) is the ivar that was set in test.h. So all changing of variables in test.m needs to be changing _highscore and not highscore. (Correct me if I'm wrong here please)
2) If I understand it correctly (I probably don't) the ivars set in test.h represent the actual memory where as the #properties are just ways to access that memory. So outside of the implementation I can't access _highscore without going through the property.
What I don't understand
Basically what I don't get about this situation is whether or not I need to use the ivars at all or if I can just use #property and #synthesize. It seems like the ivars are just extra code that don't really do anything but confuse me. Some of the most recent tuts I've seen don't seem to use ivars but then some do. So is this just a coding preference thing or is it actually important? I have tried searching through Apple's Documentation but I get rather lost in there and never seem to find what I'm looking for. Any guidance will be greatly appreciated.
You can think of the syntax for synthesizing properties as #synthesize propertyName = variableName.
This means that if you write #synthesize highscore = _highscore; a new ivar with the name _highscore will be created for you. So if you wanted to you could access the variable that the property is stored in directly by going to the _highscore variable.
Some background
Prior to some version of the compiler that I don't remember the synthesis statement didn't create the ivar. Instead it only said what variable it should use so you had to declare both the variable and the property. If you synthesized with a underscore prefix then your variable needed to have the same prefix. Now you don't have to create the variable yourself anymore, instead a variable with the variableName that you specified in the synthesis statement will be created (if you didn't already declare it yourself in which case it is just used as the backing variable of the property).
What your code is doing
You are explicitly creating one ivar called highscore when declaring the variable and then implicitly creating another ivar called _highscore when synthesizing the property. These are not the same variable so changing one of them changes nothing about the other.
Should you use variables or not?
This is really a question about preference.
Pro variables
Some people feel that the code becomes cleaner if you don't have to write self. all over the place. People also say that it is faster since it doesn't require a method call (though it is probably never ever going to have a measurable effect on your apps performance).
Pro properties
Changing the value of the property will call all the necessary KVO methods so that other classes can get notified when the value changes. By default access to properties is also atomic (cannot be accessed from more then one thread) so the property is safer to read and write to from multiple thread (this doesn't mean that the object that the property points to is thread safe, if it's an mutable array then multiple thread can still break things really bad, it will only prevent two threads from setting the property to different things).
You can just use #property and #synthesize without declaring the ivars, as you suggested. The problem above is that your #synthesize mapped the property name to a new ivar that is generated by the compiler. So, for all intents and purposes, your class definition is now:
#interface Test : NSObject {
int timesPlayed;
int highscore;
int _timesPlayed;
int _highscore;
}
...
#end
Assigning a value directly to the ivar timesPlayed will never show up if you access it via self.timesPlayed since you didn't modify the correct ivar.
You have several choices:
1 Remove the two ivars you declared in your original post and just let the #property / #synthesize dynamic duo do their thing.
2 Change your two ivars to be prefixed by an underscore '_'
3 Change your #synthesize statements to be:
#implemenation Test
#synthesize timesPlayed;
#synthesize highscore;
...
I typically just use #property and #synthenize.
#property gives the compiler and the user directions on how to use your property. weather it has a setter, what that setter is. What type of value it expects and returns. These instructions are then used by the autocomplete (and ultimately the code that will compile against the class) and by the #synthesize
#synthesize will by default create an instance variable with the same name as your property (this can get confusing)
I typically do the following
#synthesize propertyItem = _propertyItem;
this will by default create a getter and a setter and handle the autorelease as well as create the instance variable. The instance variable it uses is _propertyItem. if you want to access the instance variable you can use it as such.
_propertyItem = #"Blah";
this is a mistake tho. You should always use the getter and setter. this will let the app release and renew as needed.
self.propertyItem = #"Blah";
This is the better way to handle it. And the reason for using the = _propertyItem section of synthesize is so you cannot do the following.
propertyItem = #"Blah"; // this will not work.
it will recommend you replace it with _propertyItem. but you should use self.propertyItem instead.
I hope that information helps.
In your example, #synthesize timesPlayed = _timesPlayed; creates a new ivar called _timesPlayed and the property refers to that ivar. timesPlayed will be an entirely separate variable with no relation whatsoever to the property. If you just use #synthesize timesPlayed; then the property will refer to timesPlayed.
The purpose of the underscore convention is to make it easier to avoid accidentally assigning directly to an ivar when you want to be doing it through the property (i.e. through the synthesized setter method). However, you can still acces _timesPlayed directly if you really want to. Synthesizing a property simply auto-generates a getter and setter for the ivar.
In general you do not need to declare an ivar for a property, although there may be special cases where you would want to.
This may be an old question.. but in "modern times", #synthesize- is NOT necessary.
#interface SomeClass : NSObject
#property NSString * autoIvar;
#end
#implementation SomeClass
- (id) init { return self = super.init ? _autoIvar = #"YAY!", self : nil; }
#end
The _underscored backing ivar IS synthesized automatically... and is available within THIS class' implementation, directly (ie. without calling self / calling the automatically generated accessors).
You only need to synthesize it if you want to support subclass' ability to access the _backingIvar (without calling self), or for myriad other reasons, described elsewhere.
Sorry for the kind of useless post title, but since I'm not really sure what I am doing, that was the best i could come up with.
In my header file it looks like this
#interface RootViewController : UITableViewController {
NSMutableArray *eventsArray;
}
#property (nonatomic, retain) NSMutableArray *eventsArray;
#end
This is not all the properties but i removed all but one for simplicity.
I'm doing this by following a guide from apple developer. It seems as though the guide is not totally updated since it tells me to synthesize properties, wich i should not have to anymore right?
Anyways, why is it like this? To me, a beginner at this, it seems as though I declare the property twice? Or do I do something else at the first row there?
It's like this for historical reasons, with the older compiler.
You can do this nowadays:
#interface RootViewController : UITableViewController
#property (nonatomic, retain) NSMutableArray *eventsArray;
#end
The way you have it, you are declaring an instance attribute, and then you are saying you want to automatically generate getters and setters.
Nowadays, you can just say you have a property and the compiler will automatically generate the instance attribute at compile time. It removes the apparent redundancy.
To me, a beginner at this, it seems as though I declare the property
twice? Or do I do something else at the first row there?
A property and the instance variable that backs it up (if there is one) are two different things. A property is really just a promise that the class provides certain accessor methods. So the fact that you had to declare the property and ivar separately isn't strange. However, most properties are, in fact, backed by an ivar with a related name, and writing and maintaining the two separately got to be a chore. So Apple added ivar synthesis to the compiler, so that the compiler generates an ivar for any synthesized properties for which an ivar doesn't already exist. Also, because synthesized accessors are by far the most common, and because the compiler will use any accessors that you provide even if a property is marked #synthesize, that became the default so that you no longer need the compiler directive.
I am learning Objective-C and was just curious. I can create an object of a NSString in these places, and please provide any others. To me they all do the same thing. I don't know what is the difference is between them. Where is it stored? From where can I access it? What are the advantages?
1)
// .h
#interface ...
#property (strong,nonatomic) NSString *text;
#end
2)
// .h
#interface ... {
NSString *text
}
#end
3)
// .m
#interface ... ()
#property (strong,nonatomic) NSString *text;
#end
First and foremost, my answer is based on the latest Clang compiler, older versions worked slightly different.
So, you're not creating an object in neither. You're not even declaring an object in two of them.
In the first case, you're actually telling the compiler that you need to expose a property called text of type NSString. What the compiler does, is declaring an instance variable for you _text (which you can access without a problem by the way) and the methods needed to get and set that instance variable. As you can see the storage is still internal, you just have getters and setters set for you.
In the second case you're actually declaring an instance variable (ivar) yourself, just as the compiler does with _text. It's accustom to prefix it with _. The storage is still internal. On top of that, you can't access your ivar from outside, since it has no getter or setter and the implicit declaration is #private.
In the third case, you create an anonymous category (thus the empty parentheses) which adds a property to your class. Storage for this is a little bit harder/longer to explain, if you are curious about it, you can search up the Apple docs, see what a category is and so on. You can only access your property from within your class in this case, which makes it somehow redundant (the getters and setters), you could have declared it as an ivar.
You can also declare your ivars like this:
#interface GenericViewController : UIViewController{
NSString * text;
}
#end
#implementation GenericViewController{
NSString * text;
}
#end
Both of the above have local storage and private visibility (can't be accessed from outside). The difference between the two is that instance variables declared in the implementation are implicitly hidden and the visibility cannot be changed with #public, #protected and #private. If you use those directives you won't get compiler errors but are ignored.
I'm kinda new in Obj-C and I would like to ask why everything need to write something like this?
#property (_something, _something) NSString* name;
What is the #property indicates for?
Why we need to put _something in the bracket?
PS: I know there is no _something, it should be nonatomic, retain, copy and so on. Since it has so many options, that's why I simply put a word to indicate the content inside the bracket.
(Where can I get all the list of available options?)
Thanks :D
#property indicates that you are defining a property, which is at the basic level just syntactic sugar that allows you to do variable = object.property and object.property = value instead of variable = [object property] and [object setProperty:value]. If you really wanted, you could skip declaring any properties and just declare the getter and setter methods directly and the runtime would hardly notice the difference.
The things inside the parentheses modify the property. Many are only useful for properties whose getter and/or setter implementations are created for you using #synthesize in the #implementation block. For example, assign (the default) says that the value set is just set; retain says that the object set will automatically have its retain method called (and the previous object, if any, will have release called); and copy says that the object will have its copy called.
A list of possible attributes is in the documentation.
The #property directive is simply a promise that the class provides accessors for the given identifier. Options given after the directive (copy, nonatomic, etc.) specify how the accessors behave. That's really all there is to it.
Related syntax includes the directives #dynamic and #synthesize and dot notation. The two directives are mutually exclusive and tell the compiler that you'll supply the accessors or that the compiler should supply the accessors, respectively. Dot notation is the syntactic sugar that Anomie mentioned -- it's meant for accessing properties, but you're not required to formally declare a property to use it.
I'm a bit confused; if an object is declared in the .h file it is considered automatically as "public" right? We use a #property in the .h file, however, to edit them? This is where I don't understand: we use the getter/setter for private objects, so why do we use the #property for objects declared in the .h file and thus considered as "public"?
Second thing, I found this example: I don't understand why we use a #synthesize for primaryKey in this code: http://staging.icodeblog.com/wp-content/uploads/2008/08/9-todom1.png
and why we don't use a #property for the database object?
It is not correct that if an object (ivar) is declared in a .h file, then it is public. It is only if getter/setter methods are provided, otherwise it is not.
Indeed, the #property/#synthesize directives are facilities meant to declare and define default getter/setter methods. So, instead of writing them yourself, you just use the directives.
It is also worth noting that declaring properties you get the possibility of using the dot notation to refer properties of your objects. And also that they clarify a lot, thanks to the retain/assign/copy specifiers, how memory is meant to be managed for that properties. (And, of course, #synthesize will just do that correctly for you).
About your sample, in fact, whether an ivar is associated to a property or not is a design choice. Possibly, you just reconsider the assumption that ivars declared in .h files are public by defaults, and it will become clearer. In other words: primaryKey is public, database is not.
A very nice tutorial can be found here but also do not forget Apple docs.
EDIT:
about your question from the comment section:
it is not necessary that every ivar has a property, nor that it has getter/setter in order to be used inside of that class implementation.
#interface SomeClass : NSObject {
AnotherClass* _anotherClassObj;
AThirdClass* _aThirdClassObj;
}
#property (nonatomic, retain) AnotherClass* anotherClassObj;
#end
So, here you have two ivars; only one has got a #property declaration. In your .m file you may have, e.g.
#implementation SomeClass;
#synthesize anotherClassObj = _anotherClassObj;
- (void)initWithClasses:(AnotherClass*)obj1 and:(AThirdClass*)obj2 {
.....
self.anotherClassObj = obj1;
_aThirdClassObj = obj2;
...
}
....
#end
In this code:
#synthesize will provide implementation for getter/setter for anotherClassObj so you can use syntax: self.anotherClassObj = obj1; that syntax can be used equally from inside and outside the class implementation;
when you have no getter/setter (either auto-generated or custom) you can assign directly to an ivar by using the syntax _aThirdClassObj = obj2;, with the semantics of simple pointer copy; anyway, _aThirdClassObj will not accessible from outside that class;
furthermore, #property ... anotherClassObj notwithstanding, you can still refer _anotherClassObj directly in your .m file, like in _anotherClassObj = xxx, bypassing getter/setter, if you ever need it.
One thing you should have clear is that getter/setter are not only a way to make an ivar "public". They also play an important role in managing the retain count (depending on which specifier you choose among retain/assign/copy in the property declaration). So, in self.anotherClassObj = obj1; above, obj1 is assigned to _anotherClassObj and it is also retained (and if _anotherClassObj was previously pointing to an object, that object will be sent a release). Raw ivar assignment does not provide that kind of facility.
In my opinion, the retain count management feature of properties is far more important than visibility for deciding whether I use a property or not.
Not everything in the header is public, by default ivars (items in the { }) are #protected. The purpose of the #property is data encapsulation. #synthesize or #dynamic is used for declaring the way you want to implement your property and one or the other is necessary to prevent crashes and warnings.
Resources:
Defining Classes #protected, #package, #private, #public reference
Declared Properties #property reference