Unsigned int reverse iteration with for loops

I want the iterator variable in a for loop to reverse iterate to 0 as an `unsigned int`, and I cannot think of a similar comparison to `i > -1`, as you would do if it was a `signed int`.

``````for (unsigned int i = 10; i <= 10; --i) { ... }
``````

But this seems very unclear, as it is relying on the numerical overflow of the unsigned integer to be above 10.

Maybe I just don't have a clear head, but whats a better way to do this...

Disclaimer: this is just a simple use case, the upper limit of 10 is trivial, it could be anything, and `i` must be an `unsigned int`.

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what if i is initially equal to 0? – Shamim Hafiz Mar 28 '11 at 11:22
I think this is the way to do it. It annoyed me quite a bit when c++ introduced size_t, but I got used to it. – Viktor Sehr Mar 28 '11 at 11:22
Then i = 0; i <= 0; It iterates once as expected... – dcousens Mar 28 '11 at 11:23
unsigned int i = 10; while (i) { --i; ... } - iterates 9..0 – Erik Mar 28 '11 at 11:23

9 Answers

You can use

``````for (unsigned int j = n; j-- > 0; ) {}
``````

It iterates from `n-1` down to `0`.

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remove one semi-colon. – BenjaminB Mar 28 '11 at 11:35
@Ubiquité and @Matt Joiner: Thanks. – Serge Dundich Mar 29 '11 at 8:54
This approach has limitations, so I went with what Alexandre C. suggested. – Anupam Srivastava Mar 14 '14 at 8:08
Nice solution but I have to admit, I find this a little bit difficult to read. – TobiMcNamobi Nov 6 '14 at 9:59

The following does what you want:

``````for (unsigned i = 10; i != static_cast<unsigned>(-1); --i)
{
// ...
}
``````

This is perfectly defined and actually works. Arithmetic on signed types is accurately defined by the standard. Indeed:

From 4.7/2 (regarding casting to an unsigned type):

If the destination type is unsigned, the resulting value is the least unsigned integer congruent to the source integer (modulo 2^n where n is the number of bits used to represent the unsigned type)

and 3.9.1/4

Unsigned integers, declared unsigned, shall obey the laws of arithmetic modulo 2^n where n is the number of bits in the value representation of that particular size of integer

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An unsigned variable cannot be < 0, and I don't want a compiler warning every time... – dcousens Mar 28 '11 at 11:24
I usually use this with a cast. Or I simply use an int in this case. – Alexandre C. Mar 28 '11 at 11:25
Why the downvote ? 4.7/2 seems clear on this point, the behavior of the code is perfectly defined and does what you want. – Alexandre C. Mar 28 '11 at 11:27
+1, answered the question; and although it covers all bases; wasn't quite what I was looking for in terms of an answer. A cast just seemed like cheating. – dcousens Mar 28 '11 at 11:38
@Daniel: if the cast is not present, `i` will get promoted to an int and the behavior is undefined. You have to cast the -1. So my initial post was incorrect. – Alexandre C. Mar 28 '11 at 11:43

My pattern for this is usually...

``````for( unsigned int i_plus_one = n; i_plus_one > 0; --i_plus_one )
{
const unsigned int i = i_plus_one - 1;
// ...
}
``````
-

Are you really iterating down from some number greater than `std::numeric_limits<int>::max()`? If not, I would actually suggest just using a normal `int` as your loop variable and `static_cast` it to `unsigned` in the places in your code that expect it to be unsigned. This way you can use the intuitive `>= 0` or `> -1` condition and in general I would expect it to be more readable than any of the unsigned alternatives.

The `static_cast` would just be to tell the compiler how to operate on the variable and have no performance implications at all.

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Have you any proof to show that there is no actual cast being performed here? It would make sense, but I'd just like to make sure. Namely because I'm pumping numbers as fast as possible, and whilst a cast here there isn't critical, I don't see why I should if other (non casted) methods exist. – dcousens Mar 28 '11 at 13:51
I like pragmatic approaches. And readability. +1 – TobiMcNamobi Nov 6 '14 at 10:08
``````for(unsigned i = x ; i != 0 ; i--){ ...
``````

And if you want to execute the loop body when i == 0 and stop after that. Just start with `i = x+1;`

BTW, why i must be unsigned ?

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I would use two variables:

``````unsigned int start = 10;
for (unsigned int j = 0, i = start; j <= start; ++ j, -- i) {
// ...
}
``````

You can also use a while loop:

``````unsigned int start = 10;
unsigned int i = start + 1;
while (i --) {
// ...
}
``````
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This was what I wanted to avoid, but may be the most 'obvious' solution given the circumstances. – dcousens Mar 28 '11 at 11:29
why use 2 variables if 1 is completely enough? To me there is no readability advantage. The second loop is good (mostly the same as mine except that iterator-index scope is out of the loop block). – Serge Dundich Mar 29 '11 at 9:02
Because I prefer the second version (I always make mistakes when writing the first version), but some people find it harder to understand. – Sylvain Defresne Mar 29 '11 at 9:17

I can think the two options are either cast or singed numbers (can be done implicitly be comparing to -1, for example) or use the loop condition to check for overflow like this:

``````for(unsigned i=10;i>i-1;--i){ } // i = 10, 9, ... , 1
for(unsigned i=10;i+1>i;--i){ } // i = 10, 9, ... , 1,0
``````

This loop will continue until i overflows (meaning that it reached zero). Note that is important that i iterates by 1, or you might end-up with an infinite loop.

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I originally used for(unsigned i = 10;i + 1 > 0;--i) { ... }, but it seemed a bit unclear... guess its not a simple solution :P. – dcousens Mar 28 '11 at 11:40

Just:

``````int start = 10;
for(unsigned int iPlus1 = start + 1 ; iPlus1 > 0 ; iPlus1--) {
// use iPlus1 - 1 if you need (say) an array index
a[iPlus1 - 1] = 123; // ...
}
``````

No?

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You can try and define the following macro:

``````#define for_range(_type, _param, _A1, _B1) \
for (_type _param = _A1, _finish = _B1,\
_step = static_cast<_type>(2*(((int)_finish)>(int)_param)-1),\
_stop = static_cast<_type>(((int)_finish)+(int)_step); _param != _stop; \
_param = static_cast<_type>(((int)_param)+(int)_step))
``````

Now you can use it:

``````for_range (unsigned, i, 10,0)
{
cout << "backwards i: " << i << endl;
}
``````

It can be used to iterate backwards and forwards through unsigned, integers, enums and chars:

``````for_range (char, c, 'z','a')
{
cout << c << endl;
}

enum Count { zero, one, two, three };

for_range (Count, c, zero, three)
{
cout << "forward: " << c << endl;
}
``````

Despite its awkward definition it is optimized very well. I looked at disassembler in VC++. The code is extremely efficient. Don't be put off but the three for statements: the compiler will produce only one loop after optimization! You can even define enclosed loops:

``````unsigned p[4][5];

for_range (Count, i, zero,three)
for_range(unsigned int, j, 4, 0)
{
p[i][j] = static_cast<unsigned>(i)+j;
}
``````

You obviously cannot iterate through enumerated types with gaps.

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