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I've got a method that can take a variable number of arguments.

I'm using variadic commands to get the arguments and store them in an NSMutableDictionary.

The problem is, if I send an int to the method, I get a crash, because NSMutableDictionaries can't store an int.

What I want to do is make the method check if one of the arguments is an int, and if it is, turn it into an NSNumber before I put it in the dictionary.

But I can't for the life of me find out how to check for an int.

[I know one answer would be "don't send an int to the method, only send NSNumbers!" Problem is, that places an obligation on the caller of the method that can't be determined from the method description alone.]

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3 Answers

up vote 3 down vote accepted

The type of arguments in variadic lists cannot be checked. It has to be specified by some other way.

For instance, NSLog() uses the format argument to get type information: %@ for an object, %d for an integer value or %f for a floating point value.

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Not only that but you will need to be careful with type promotions. For examples, floats will always get promoted to doubles. –  aLevelOfIndirection Sep 23 '11 at 11:40
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I recently came across the concept "Type Encodings" in Apple doc. This is done using @encode() compiler directive. Doc says that, "When given a type specification, @encode() returns a string encoding that type".

So, sing @encode() and typeof() and strcmp() we can find the type of the variable that is passed. typeof() returns the type of the variable. For example, @encode(int) returns "i" and consider a variable named var is an integer variable, then typeof(var) would return int. In this case, @encode(int) and @encode(typeof(var)) would return "i" only. We can check for the equality of the strings using strcmp() method.

if (strcmp(@encode(typeof(variable)), @encode(int)) == 0) {

    // The varibale is an "int"
    // @encode(int) returns "i"

    // @encode(float) returns "f"
    // @encode(double) returns "d"

} else if (strcmp(@encode(typeof(variable)), @encode(NSObject *)) == 0) {

    // The varibale is an "object"
    // @encode(NSObject *) returns "@"
    // You can use anything in the place of NSObject in the above line
    // @encode(NSString *) or @encode(UIButton *) will also return "@"

There is list give for all the Objective-C type encodings. You can check for the string encodings of the other types in the above Apple doc link.

Application of the above concept in variadic functions: It will be almost impossible to use the above type encoding concept to variadic finctions with different kind of arguments, as we get each argument from va_arg() method only after specifying the type as the argument. So, we are trying to get the argument to find its type from va_arg() method which itself requires the type to return the argument. Bit annoyoing!

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How can you apply this to va_arg??? –  Yuji Sep 23 '11 at 10:11
@Yuji:+1 - typeof(var) works only with variables and its value is determined at compile time. OP tries to find the type of a value stored in the stack at runtime. There is no type indication in stack. –  mouviciel Sep 23 '11 at 11:12
@Yuji, Your doubt is correct. It seems, it is impossible to apply the concept to va_list ;-( –  EmptyStack Sep 23 '11 at 11:46
I'm using id as the variable type in my va_arg statements. Does that change anything? –  Le Mot Juiced Sep 23 '11 at 19:04
If you use your first argument as id or some other object type, va_arg excepts all the other arguments to be of object types. Combining both the object and primitive types as arguments would result in unexpected behavior. –  EmptyStack Sep 24 '11 at 4:10
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Edit: this isn't working. I thought it was, but now I'm getting crashes I don't understand. If I figure it out, I'll come edit this more. Here's what I wrote before, which is wrong. Again, this is not working:

I think I found the answer to this: Key-Value Coding.

With Key-Value Coding, I can set up an instance variable of type id, and then dynamically identify the actual contents of the variable. I can put anything in it, even an int, and Key-Value methods will identify it for me. But what's even more awesome is that if I retreive the contents of a variable using Key-Value Coding, and the variable turns out to be an int, Key-Value Coding automatically turns it into an NSNumber for me.

I will attempt to demonstrate.

The main thing is to set up accessor statements for the variable I want to access. So, for this example, let's say the variable is called "identifyMe."

//in the interface:
@property (copy) id accessIdentifyMe;

//in the implementation:
@synthesize accessIdentifyMe = identifyMe;

Now "identifyMe" is Key-Value Compliant. We're good to go.

All I have to do is take the items in the variadic list, pass them into identifyMe one by one, and use Key-Value methods to identify the contents. Like so:

/*...assume all the following is happening inside a loop that

counts through the variadic list. I'll call the variadic list "variadicList." First, I take the current variadic item and put it into identifyMe, declaring it as type "id"*/ identifyMe = va_arg(variadicList, id);

/*Now I use a Key-Value method to check if identifyMe holds an

NSNumber. If it holds an int, it will automatically be returned as an NSNumber, you'll recall, so querying for an NSNumber is functionally the same as querying for an int.
Outside the loop I've set up a handy boolean called foundANumber in which to store the results of the query:*/ foundANumber = [[self valueForKey:@"identifyMe"] isKindOfClass:[NSNumber class]];

That's given me the ability to separate the numbers from the objects. With that done, I can put the objects directly into my dictionary, and put the numbers into an NSNumber before I put them in the dictionary.

And what this means at the other end, when calling this method from another object, is that I can call this method and put an int in the parameter list and not worry about causing a crash. Yay.

Here's the reason this isn't working: KVC isn't magic. I thought it had some super special way of determining the type of a variable, but it doesn't. It just looks at the type declared in the accessor methods, and it can't independently verify any more than that. Darn.

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