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I need some advice with this strange behavior – lets have this code:

int ** p;

This compiles without any trouble:


But this:


Gives me this error message: “error: lvalue required as increment operand”.

I am casting to p to the type it already is, nothing changes, so what is the problem? This is simplified version of problem I came across, when I was trying to compile one old version of gdb. So I suppose, that this worked and something changed. Any idea what is wrong with the second example?

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"nothing changes" - many things change, actually, one of which is that the result of a cast expression is not an lvalue but an rvalue (it doesn't designate storage), so it doesn't make sense to increment it. –  user529758 Jan 27 at 16:45
Yep. "If it hurts when you do that, maybe you aren't supposed to do that." –  keshlam Jan 27 at 16:47
The result of a cast has never been an lvalue. It would be interesting to see the exact code from that old version of gdb; I suspect your simplification has hidden the actual problem. –  Keith Thompson Jan 27 at 16:48
IIRC some version of VC++ allowed this (probably VC++ 7.1). –  Matteo Italia Jan 27 at 16:49
I can hardly imagine gbd actually used something like this. It is just plain wrong like Carbonic Acid pointed out. –  Jori Jan 27 at 16:49

4 Answers 4

up vote 5 down vote accepted

Old versions of gcc support something called "lvalue casts" -- if you cast something that is an lvalue the result is an lvalue and can be treated as such. The main use for it is allowing you to increment a pointer by an amount corresponding to a different size:

int *p;
++(char *)p;  /* increment p by one byte, resulting in an unaligned pointer */

This extension was deprecated some time around gcc v3.0 and removed in gcc v4.0

To do the equivalent thing in more recent versions of gcc, you need do an addition and assignment (instead of an increment) casting the pointer to the type for the addition and back for the assignment:

p = (int *)((char *)p + 1);

Note that trying to dereference the pointer after this is undefined behavior, so don't count on it doing anything useful.

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'Old versions of gcc support something called "lvalue casts"'. No, this was a BUG due to optimization indeed! E.g try ++(char *)p; give you an error while ++(int *)p; compiles when p is of int* type. –  Grijesh Chauhan Jan 28 at 2:50
@GrijeshChauhan: Both work fine on versions of gcc prior to 4.0. Your link uses gcc 4.1, so is not old enough. –  Chris Dodd Jan 28 at 6:18
No first one is not error while second one is Check this -- first works because ++(int*)p; converted into ++p; due to optimization Whereas ++(char*)p; doesn't. I observed the behaviour some time in past. See this ++( i | i) will be compiles that compiles ++(int*)p;. –  Grijesh Chauhan Jan 28 at 6:25

When you typecast an expression, the result of that expression is an rvalue rather than an lvalue. Intuitively, a typecast says "give me the value that this expression would have if it had some other type," so typecasting a variable to its own type still produces an rvalue and not an lvalue. Consequently, it's not legal to apply the ++ operator to the result of a typecast, since ++ requires an lvalue and you're providing an rvalue.

That said, it is in principle possible to redefine the C language so that casting a value to its own type produces an lvalue if the original expression is an lvalue, but for simplicity's and consistency's sake I suppose the language designers didn't do this.

Hope this helps!

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The term is "cast", not "typecast". (Typecasting is something that happens to actors.) –  Keith Thompson Jan 27 at 16:49
@KeithThompson I've seen the term "typecast" used for this term extensively, with "cast" just being a short term for it. Wikipedia seems to support this as well. –  templatetypedef Jan 27 at 16:52
The term "typecast" appears nowhere in K&R2 or in the ISO C standard (and only once in that Wikipedia article, which goes on to refer to explicit C type conversions as "casts"). –  Keith Thompson Jan 27 at 17:01
BTW, I just edited that Wikipedia page, but I didn't touch the reference to "typecasting". –  Keith Thompson Jan 27 at 17:08
@KeithThompson I suspect that in C/C++ parlance, the term is "cast," while in a broader CS context, the term is "typecast." That would explain things. :-) –  templatetypedef Jan 27 at 17:34

Why isn't the result of this cast an lvalue?

I draw your attention to section 6.5.4 of the C99 specification, line 4, footnote 86, which states:

A cast does not yield an lvalue.

You have a cast.

The result is not an lvalue.

The ++ operator requires an lvalue.

Therefore your program is an error.

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Eric this was a bug in old compiler I added a comment to question –  Grijesh Chauhan Jan 28 at 2:59

In C language all conversions (including explicit casts) always produce rvalues. No exceptions. The fact that you are casting it to the same type does not make it exempt from that rule. (Actually, it would be strange to expect it to make such an inconsistent exception.)

In fact, one of fundamental properties of the entire C language is that it always converts lvalues to rvalues in expressions as quickly as possible. Lvalues in C expressions are like 115th element of Mendeleev table: they typically live a very short life, quickly decaying to rvalues. This is a major difference between C and C++, with the latter always attempting to preserve lvalues in expressions as long as possible (although in C++ this specific cast would also produce an rvalue).

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So if you wanted to cast something and then use it as an lvalue, is there any way? I can think of assigning the rvalue to an appropriately-declared pointer -- is that a good way, and is there a better one? –  Phil Perry Jan 27 at 18:31
@PhilPerry: Since we do not know what your actual goal is, it is hard to tell you how to better achieve it. You're probably not trying to get an lvalue out of a cast for its own sake; you have some larger purpose. That purpose will not be achieved by casting and expecting to get an lvalue, so rather than continuing down this false path, describe your real problem and ask for help in solving it. –  Eric Lippert Jan 27 at 19:17
@Phil Perry: Using something as an lvalue of different type is not really a type conversion but rather a raw memory reinterpretation. In C raw memory reinterpretation is implemented by going up one level of indirection (using & operator), performing a cast there and then returning back to the original level using * operator. In the OP's case it would look as follows: (*(int ***) &p)++. Of course, this example has purely academic value, since p is already an int **. –  AndreyT Jan 27 at 19:18
@Eric, I don't have a specific problem at hand to solve. It's just that @AndreyT's answer triggered the thought that at some time in the future I might want to cast, say, a pointer to something else, and use it as an lvalue, and how best can this be done? Say, I had a void * array, and I wanted to increment to the next integer, or something like that. –  Phil Perry Jan 27 at 19:25
@Phil Perry: If you have a void *p and you want to shift it to the next int, the best way would be to avoid memory reinterpretation altogether and do p = (int *) p + 1. With memory reinterpretation it would look as ++(*(int **) &p), but it is inferior to the previous one. –  AndreyT Jan 27 at 19:51

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