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I've been discussing the use of size_t with colleagues. One issue that has come up is loops that decrement the loop variable until it reaches zero.

Consider the following code:

for (size_t i = n-1; i >= 0; --i) { ... }

This causes an infinite loop due to unsigned integer wrap-around. What do you do in this case? It seems far to easy to write the above code and not realise that you've made a mistake.

Two suggestions from our team are to use one of the following styles:

for (size_t i = n-1; i != -1 ; --i) { ... }

for (size_t i = n; i-- > 0 ; ) { ... }

But I do wonder what other options there are...

Cheers,

Dan

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Looks like a dup: stackoverflow.com/questions/665745/…. This didn't come up in my initial searches. –  Daniel Paull Sep 2 '10 at 2:02
    
See also: stackoverflow.com/questions/3484474/… –  Charles Bailey Sep 2 '10 at 6:50
    
Those are both tagged 'C' only, doing this in C++ has some very clear alternatives that are not available in C. –  joshperry Sep 2 '10 at 14:30
1  
@joshperry: I didn't say duplicate or vote to close as a duplicate I said "See also". This question is tagged C and C++ and the linked question is applicable to C++ as well, so I think that the link is valuable. –  Charles Bailey Sep 3 '10 at 7:18

8 Answers 8

up vote 23 down vote accepted

Personally I have come to like:

for (size_t i = n; i --> 0 ;)

It has a) no funny -1, b) the condition check is mnemonic, c) it ends with a suitable smiley.

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6  
Dude, that rocks! –  Daniel Paull Sep 2 '10 at 11:26

Unsigned integers are guaranteed to wrap around nicely. They just implement arithmetic modulo 2N. So an easy to read idiom is this one:

for (size_t i = n-1; i < n ; --i) { ... }

this sets the variable to the initial value that you want, shows the sense of the iteration (downward) and gives precisely the condition on the values that you want to handle.

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  1. Replace the loop with an algorithm.
  2. Use a reverse iterator instead of an integer.
  3. Count down from n to 1, but inside the loop use i-1 instead of i.
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i != -1 relies on the -1 being silently cast to a size_t, which seems fragile to me, so, of the alternatives you present, I'd definitely go with the post-decrement one. Another possibility (esp. if you don't actually need i in the loop body but just need to iterate on an array in reverse order) would be to wrap the array in a std::-like container and use an iterator on the wrapper, with the rbegin and rend methods. E.g., Boost.Array would support the latter choice.

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3  
The "silent cast" is really an implicit conversion, which is a defined part of the language. It's not at all fragile. –  caf Sep 2 '10 at 4:29
    
But how is the conversion certain to be exactly to a size_t, as opposed to an unsigned int? I believe all you know for sure is that size_t is at least 16 bit -- but is it ensured that it's also at least as large as an unsigned int? Otherwise (if size_t is unsigned short, 16 bit, and unsigned int is 32 bit), i != -1 may be "always false" (gcc warns about that if you typedef unsigned short size_t, and are you sure no compiler is ever allowed to do that no matter what the provocation?). Needs "standards lawyering" at least -- that's not "not at all fragile". –  Alex Martelli Sep 2 '10 at 5:05
2  
The conversion isn't necessarily to size_t. First integer promotion happens. If size_t is actually smaller than an int (i.e. an int can hold the large positive number that decrementing a size_t with value 0 results in) then both sides of the comparison would remain int with the comparison obviously always failing. Only if a size_t is at least as wide as an int and you're not on an architecture where the signed types can hold all the values of the corresponding unsigned types will -1 be converted to an unsigned type of the correct width. IMHO an explicit conversion is needed. –  Charles Bailey Sep 2 '10 at 6:40
1  
@Charles, thanks for the analysis! My point is, even if a "standards lawyer" could prove by a subtle reading of some obscure subclause that, per the standard, it's "supposed to" work (and more so of course if you're right and it's not supposed to work;-), the construct is fragile: since there are clear alternatives that don't rely on such delicate subtleties, the alternatives should therefore be preferred, aiming at solidity (with clarity and maintainability being part of that goal) at the heart of our code. –  Alex Martelli Sep 2 '10 at 14:19
    
Good points all. The possibility of size_t being promoted to int by the integer promotions certainly exists (16 bit size_t with 32 bit int are allowed). I do not agree though with @Charles Bailey in the general case where signed types cannot hold all the values of the unsigned type with the same conversion rank (the usual case) - in that case (assuming the integer conversions haven't already promoted size_t to int) the arithmetic conversions convert the signed operand to unsigned. –  caf Sep 3 '10 at 2:34

If you're worried about accidentally writing a loop like that, some compilers will warn about such things. For example, gcc has a warning enabled by the -Wtype-limits option (also enabled by -Wextra):

x.c:42: warning: comparison of unsigned expression >= 0 is always true
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Are you using standard library containers? If so I like reverse_iterator

   vector<int> ivect;

   // push, push, push...

   vector<int>::reverse_iterator riter;
   for(riter=riter.rbegin(); riter!=ivect.rend(); ++riter)
   {
       //...
   }

For a raw array you can just use a std::reverse_iterator the key to this is that a pointer is an iterator:

int i[] = {1, 2, 3, 4};

typedef std::reverse_iterator<const int*> irevit;

irevit iter(i+4);
irevit end(i);
for(; iter != end; ++iter) {
    cout << *iter;
}

// Prints 4321

Noncontiguous object iteration can be done by storing the object pointers in a container or array:

struct Foo {
    Foo(int i) I(i) { }
    int I;
}

vector<Foo*> foos;
for(int i = 0; i < 10; ++i)
    foos.push_back(new Foo(i));

typedef vector<Foo*>::const_reverse_iterator frevit;

frevit iter(foos.rbegin());
for(; iter != foos.rend(); ++iter) {
    cout << (*iter)->I;
}

// Prints 9876543210

If you really want to use a naked size_t then why use all of this implicitly confusing -1 trickery in the other answers? The max value of size_t is explicitly available to use as your termination value:

int is[] = {1, 2, 3, 4};
int n = 3;

for (size_t i = n; i != std::numeric_limits<size_t>::max(); --i) {
    cout << is[i] << endl;
}

// prints 4321
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Yes we use STL containers - what about when it's not an STL container that you're dealing with? –  Daniel Paull Sep 2 '10 at 1:54
    
@DanielPaull: vector<int>::reverse_iterator is just std::reverse_iterator<vector<int>::iterator>. Any time that you have a type that models the Bidirectional Iterator concept (e.g.: a pointer type), you can use std::reverse_iterator. The implementation of std::reverse_iterator is basically suggestion 3 of Jerry Coffin's answer ("Count down from n to 1, but inside the loop use i-1 instead of i.") –  Daniel Trebbien Sep 2 '10 at 2:02
1  
@Daniel You can use std::reverse_iterator with a carray pretty easily since a pointer is an iterator, I added that to my answer. –  joshperry Sep 2 '10 at 2:07
    
@joshperry - that's a better answer. Now, what if you're not iterating through memory? –  Daniel Paull Sep 2 '10 at 2:15
    
@Daniel Can you give an example of what you mean? –  joshperry Sep 2 '10 at 2:40

Here is a pointer to a good discussion on this topic.

I would try:

for( size_t i = n; i != 0; i-- ) {
  // do stuff with array[ i - 1 ]
}
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size_t i = n-1;

do  { 
  ...
} while ( i-- != 0);

You may wrap that with a if (n > 0) if necessary.

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