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#include<iostream>
using namespace std;

int main()
{
  int *p,*c;
  p=(int*)10;
  c=(int*)20;
  cout<<(int)p<<(int)c;
}

Somebody asked me "What is wrong with the above code?" and I couldn't figure it out. Someone please help me.

share|improve this question
    
+1, Nice question :-)..... –  Prasoon Saurav Jan 3 '10 at 7:02
1  
Have you considered this as the valid answer: "nothing". An interviewer is usually interested in how you arrive at an answer, not the answer. –  Hans Passant Jan 3 '10 at 10:42
1  
a more descriptive name wouldn't hurt. –  jalf Jan 3 '10 at 13:01

7 Answers 7

up vote 8 down vote accepted

Some wanted a quote from the C++ standard (I'd have put this in the comments of that answer if the format of comments wasn't so restricted), here are two from the 1999 one:

5.2.10/3

The mapping performed by reinterpret_cast is implementation defined.

5.2.10/5

A value of integral type or enumeration type can be explicitly converted to a pointer. A pointer converted to an integer of sufficient size (if ant such exists on the implementation) and back to the same pointer type will have its original value; mappings between pointers and integers are otherwise implementation-defined.

And I see nothing mandating that such implementation-defined mapping must give a valid representation for all input. Otherwise said, an implementation on an architecture with address registers can very well trap when executing

p = (int*)10;

if the mapping does not give a representation valid at that time (yes, what is a valid representation for a pointer may depend of time. For instance delete may make invalid the representation of the deleted pointer).

share|improve this answer
    
Upvoted for the second quote. C-style casts and reinterpret_cast have different behavior so I'm not certain the first quote applies. –  Dan Olson Jan 3 '10 at 9:34
3  
Dan, the whole 5.2.10 section is about reinterpret_cast, so both quotes are about reinterpret_cast. But in C++, the syntax of C cast is defined in terms of the other casts, and in this case, it is the reinterpret_cast definition which applies. –  AProgrammer Jan 3 '10 at 9:38
    
@AProgrammer: Thanks, I could not find it in the C++ Standard :) –  Prasoon Saurav Jan 3 '10 at 11:00
    
In practice, the pointers most likely won't be valid (assuming int requires 4-byte alignment, at least the 10 one won't be properly aligned) And of course, both are likely to point to an unmapped page of memory. Plenty of opportunities for the CPU to trap. –  jalf Jan 3 '10 at 13:01
    
@jalf, there is plenty of opportunities to trap when dereferencing the pointer on common architectures; I was especially pointing out that the standard allows to trap when loading the pointer without dereferencing it (if you use segment, you can get that such traping on a x86) –  AProgrammer Jan 3 '10 at 13:08

The fact that int and pointer data types are not required to have the same number of bits, according to the C++ standard, is one thing - that means you could lose precision.

In addition, casting an int to an int pointer then back again is silly. Why not just leave it as an int?

I actually did try to compile this under gcc and it worked fine but that's probably more by accident than good design.

share|improve this answer
1  
I think you caught the intent of the question (which is clearly a trick question for an interview or somesuch), but I suppose the code will exhibit the intended behavior on any platform where both int and int* can represent the values 10 and 20. –  Dan Olson Jan 3 '10 at 7:00
1  
Dan is correct - the code, as written, will work on most modern platforms. But using pointers to store integers will generally cause crashes or other bugs if you dereference those pointers. You occasionally see people who really know what they're doing write code like this, but I consider it a dubious practice that should generally be avoided. As they say on Mythbusters, "Please don't try this at home!" –  Bob Murphy Jan 3 '10 at 7:44
1  
@Bob More frequently, you see people who really DON'T know what they are doing writing code like this. –  anon Jan 3 '10 at 13:05
    
It's not just "silly" to cast int to int pointer and back. It is implementation-defined, and most likely, not every integer converts to a valid int pointer, so on some platforms, the code might crash even if the pointers are never dereferenced. –  jalf Jan 3 '10 at 13:06
    
@jalf, implementation-defined isn't a bad thing provided you know it's limitations (and you're not concerned about massive portability). As I stated, gcc under Ubuntu worked fine for this although you really need to check the doco for your compiler to be sure (I didn't). My point was, even if the implementation allowed it, it's still a silly thing to do. –  paxdiablo Jan 3 '10 at 13:23

addresses p and c may be larger than int.

share|improve this answer
    
or smaller than int –  swegi Jan 3 '10 at 9:48
    
@fupsduck: Addresses p and c will be of size as that of a int. All pointers are 32 bit, same as int size. –  goldenmean Jan 3 '10 at 9:58
1  
@goldenmean, 64 bits pointers and 32 bits ints aren't a rarety these days. –  AProgrammer Jan 3 '10 at 10:06

Assuming I'm right about what this is supposed to be, it should look like this:

int main()
{
  int *p, *c;
  // Something that creates whatever p and c point to goes here, a trivial example would be.
  int pValue, cValue;
  p = &pValue;
  c = &cValue;
  // The & operator retrieves the memory address of pValue and cValue. 

  *p = 10;
  *c = 20;
  cout << *p << *c;
}

In order to assign or retrieve a value to a variable referenced by a pointer, you need to dereference it.

What your code is doing is casting 10 into pointer to int (which is the memory address where the actual int resides).

share|improve this answer
2  
This will segfault on most implementations. –  Prasoon Saurav Jan 3 '10 at 6:46
    
Dereferencing a "wild pointer" is Undefined Behavior. –  Prasoon Saurav Jan 3 '10 at 6:47
1  
@Adam, I'll give you the benefit of the doubt and assume you meant "this is what your problem code should look like" rather than "this code is the solution to your problem". Since p and c are uninitialized, they could be set to anything which is undefined behaviour. –  paxdiablo Jan 3 '10 at 6:52
    
Sorry, forgot to put that bit in. Fixed. –  Adam Luchjenbroers Jan 3 '10 at 8:00
    
I have upvoted you, you have corrected your code. :-) –  Prasoon Saurav Jan 3 '10 at 8:01

The problem on some platforms you need

p = (int*) (long) 10;

See GLIB documentation on type conversion macros.

And for the people who might not find a use for this type of expressions, it is possible to return data inside pointer value returning functions. You can find real-world examples, where this case it is better to use this idiom, instead of allocating a new integer on the heap, and return it back - poor performance, memory fragmentation, just ugly.

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You're assigning values (10 and 20) to the pointers which obviously is a potential problem if you try to read the data at those addresses. Casting the pointer to an integer is also really ugly. And your main function does not have a return statement. That is just a few things.

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1  
main() doesn't need a return statement. The standards compliant compiler inserts it. www2.research.att.com/~bs/bs_faq2.html , refere to the question "Can I write "void main()"?. –  Jagannath Jan 3 '10 at 9:11
    
You can write "void main()" which would be better IMHO. I know the compiler adds the return statement but it is hardly good practice to write code with a bunch of warnings when compiling and basically everything that is wrong with the code would generate compiler warnings so my point is; turn on all warnings and you'll see get helpfrom the compiler to know "what is wrong with the code". –  Cellfish Jan 3 '10 at 17:05

there is more or less everything wrong with it:

int *p,*c;
p=(int*)10;
c=(int*)20;
  • afterwards p is pointing to memory address 10
  • afterwards c is pointing to memory address 20

This doesn't look very intentional.

And I suppose that the whole program will simply crash.

share|improve this answer
3  
No, it won't crash, as long as you don't try to use those pointers to reference memory addresses 10 and 20. –  Bob Murphy Jan 3 '10 at 7:34
    
All depending on the level of memory protection applied, though... –  e8johan Jan 3 '10 at 9:24
    
@Bob: It might crash. It is implementation-defined. The CPU could detect that these are invalid pointers, and trap as soon as the pointers are created. –  jalf Jan 3 '10 at 12:58

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