I read in Cocoa and Objective C: Up and Running that
-copy will always return an immutable object and
-mutableCopy will always return a mutable object:
It’s important to know that calling
-copyon a mutable object returns an immutable version. If you want to copy a mutable object and maintain mutability in the new version, you must call
-mutableCopyon the original. This is useful, though, because if you want to “freeze” a mutable object, you can just call
So I have something like this:
NSMutableURLRequest *req = [[NSMutableURLRequest alloc] init]; NSLog( @"%@", [req className] ); // NSMutableURLRequest NSLog( @"%@", [[req copy] className] ); // NSMutableURLRequest NSLog( @"%@", [[req mutableCopy] className] ); // NSMutableURLRequest
According to this previous answer:
You cannot depend on the result of copy to be mutable! Copying an
NSMutableArraymay return an
NSMutableArray, since that's the original class, but copying any arbitrary
NSArrayinstance would not.
This seems to be somewhat isolated to
NSArray acts as intended:
NSArray *arr = [[NSMutableArray alloc] init]; NSLog( @"%@", [arr className] ); // __NSArrayM NSLog( @"%@", [[arr copy] className] ); // __NSAraryI NSLog( @"%@", [[array mutableCopy] className] ); // __NSArrayM
- When does
-copyreturn an immutable object (as expected) and when does it return a mutable object?
- How do I achieve the intended effect of getting a "frozen" copy of a mutable object that refuses to be "frozen"?