In Xcode 4.5 and before, this was a common problem. If I remember correctly, what was really happening there was that the old C no-prototype type promotion rules were in effect. If you were passing a floating point value, it had type double. If you were passing an integral value, it was passed as int, that kind of thing. If you wrote (float)0.8f, lldb would take those 4 bytes of (float) and pass them to something that reads 8 bytes and interprets it as a double.
In Xcode 4.6, lldb will fetch the argument types from the Objective-C runtime, if it can, so it knows that the argument is really taking a float here. You shouldn't even need the (float) cast.
My guess is that when you give lldb a pointer to an object
p (void) [0x260da630 setProgress:..., the expression parser isn't looking at the object's isa to get the class & getting the types out of it. As soon as you added a cast to the object address, it got the types.
I think when you wrote
setProgress:(float)0.8f for gdb, it would take this as a special indication that this argument is a float type -- in essence, you were providing the prototype. It's something that I think lldb's expression parser should do some time in the future, but the fact that clang is used to do all the expression parsing means that it's a little harder to shoehorn these non-standard meanings into it. (there are already a few, of course, e.g.
p $r0 works ;)