In general, no.
objc_msgSend() keeps a pseudo-Least Recently Used cache of the most recent
IMP lookups on a per class basis. As always, the specifics are 'implementation private details', but it's reasonable to say that the lookup time is ~
O(1) on average, regardless of the number of selectors. The most common way this is done is with a small hash table- if the selector is in the cache, then the dispatch is essentially instant. If the selector isn't in the cache, then it needs to perform the 'slow path' expensive lookup.
However, even the 'slow path' can be reasonably fast. There are any number of data structures one can turn to, such as Red Black Trees, that offer excellent, sub exponential lookup times that scale well regardless of the number of selectors- generally in the
O(log2(selectorCount)) range. Again, how
libobjc deals with these kinds of details are private, but there's so many data structures that easily scale regardless of the number of items to search that there's no reason that this kind of thing should even be on your radar.
A quick check via
nm turns up 7771 selectors in Foundation, and 27510 selectors in AppKit, for a total of 35281 selectors just between the two. Throw in QuickTime, CoreData, WebKit, Quartz, and you're up to 50K selectors easily. With a
log2 lookup time growth rate, doubling the number of selectors will increase the worst case time by less than 10%.
objc_msgSend() uses a small hash based cache to provide
O(1) lookup times for the most recently used selectors... and there is a very high degree of temporal locality, so the vast majority of dispatches are completed in
O(1) time regardless of the number of selectors present in the system. The natural effect of the cache is to 'tune' itself to your particular usage patterns. Even on a cache miss it's probably a reasonable guess that the worst case lookup time is ~
O(log2(selectorCount)) bound, which is pretty good, and it's probably better than that in practice.
For what it's worth, I've spent a lot of time tweaking code for speed. Even on multi-threading stuff where I peg all the CPUs doing huge amounts of analysis -> NSView / OpenGL heavy result rendering, all coded in Objective-C, I'll only see
objc_msgSend() take up 1-4 percent of the CPU when profiled with
Shark.app... and that's the worst case, doing heavy Objective-C message dispatching. It's never been an issue for me, and whatever minor speed penalty there is, it's made up for in 100X programming productivity, easily.
Mulle kybernetiK- Obj-C Optimization: The faster objc_msgSend
Objective-C 2.0 Runtime Programming Guide - Messaging
Apple Objective-C Runtime - objc4-437.tar.gz
EDIT: How weird is this: Patent 5960197 - Compiler dispatch function for object-oriented C. Can't say I knew the whole Obj-C message dispatching system was patented.... I guess you really can get a patent on anything. I'm going to go patent the alphabet and charge big, baby!