When initializing an NSMutableArray array with object, Why put nil at the end?
NSMutableArray *fruits = [[NSMutableArray alloc] initWithObjects:apple, watemelon, nil];
In Xcode, when using auto complete for filling out function variables. What's the short cut key to jump to the next variable?
Fruit *fruit3 = [[Song alloc] initWithName:(NSString *)n description:(NSString *)d
I'm typing out the
initWithNamefunction and it auto completes. So, I press tab right away to get to
n, after finishing that, how do i get to
If I have a fruits array with fruit objects as in question 1. Fruit object being an
NSObjectsubclass. Why have the "copy" in the
@propertydeclaration for name property in my Fruit class.
When I know that by default fruit object will reside in its own memory space. Since I am creating a fruit pointer.
Fruit *apple = [[Fruit alloc]....
NSString *a = @"Hello Everyone";
What does the
Does it do something like this:
[[NSString alloc] initWithValue:"ok"];
Here's a more complete explanation of question 1. C and Objective-C are rather much lower-level languages compared to languages such as Java, C#, Python, Ruby, and others. In C and Objective-C, functions with a variable number of arguments (so-called varargs or variadic functions) are allowed, but the language provides no mechanism for knowing the number of arguments actually passed in. Higher-level languages usually provide this by exposing the extra arguments as a list or array of objects; C and Objective-C use a more-limited set of macros to access the extra arguments one at a time.
Hence, as a result, any variadic function requires some other method of determining the actual number of parameters passed. The
On the x86 architecture, variadic functions are implemented using the C calling convention (cdecl), whereby the arguments are pushed on the stack from right-to-left. The caller is responsible for cleaning up the stack after the call. So, a call to
The reason the arguments are pushed right-to-left instead of left-to-right is that the stack grows downwards -- the x86
%esp+0x00: return address to calling function %esp+0x04: address of "format string 1"> %esp+0x08: a1 %esp+0x0c: a2 %esp+0x10 and above: local variables from calling function, rest of stack
When the called function examines its arguments, it just walks the stack, but it doesn't know where to stop -- the calling convention doesn't specify how many arguments there are. The function just has to know by some other means. Most functions have a fixed number of parameters, so that's easy for them, but variadic functions need some other way of determining the exact number of parameters.
If there's a mismatch between how many parameters the function thinks it was passed and how many were actually passed (e.g. a bad format string was passed to