In a lot of code examples, source code, libraries etc. I see the use of int when as far as I can see, an unsigned int would make much more sense.
One place I see this a lot is in for loops. See below example:
for(int i = 0; i < length; i++)
{
// Do Stuff
}
Why on earth would you use an int rather than an unsigned int? Is it just laziness - people can't be bothered with typing unsigned?
Using unsigned can introduce programming errors that are hard to spot, and it's usually better to use signed int just to avoid them. One example would be when you decide to iterate backwards rather than forwards and write this:
for (unsigned i = 5; i >= 0; i--) {
printf("%d\n", i);
}
Another would be if you do some math inside the loop:
for (unsigned i = 0; i < 10; i++) {
for (unsigned j = 0; j < 10; j++) {
if (i - j >= 4) printf("%d %d\n", i, j);
}
}
Using unsigned introduces the potential for these sorts of bugs, and there's not really any upside.
for(unsigned int i = start + 1; i-- > 0; ) or for(unsigned int i = start; i <= start; --i) - the latter explicitly profiting from underflow.
Nov 20, 2018 at 7:57
It's generally laziness or lack of understanding.
I aways use unsigned int when the value should not be negative. That also serves the documentation purpose of specifying what the correct values should be.
IMHO, the assertion that it is safer to use "int" than "unsigned int" is simply wrong and a bad programming practice.
If you have used Ada or Pascal you'd be accustomed to using the even safer practice of specifying specific ranges for values (e.g., an integer that can only be 1, 2, 3, 4, 5).
I chose to be as explicit as possible while programming. That is, if I intend to use a variable whose value is always positive, then unsigned is used. Many here mention "hard to spot bugs" but few give examples. Consider the following advocate example for using unsigned, unlike most posts here:
enum num_things {
THINGA = 0,
THINGB,
THINGC,
NUM_THINGS
};
int unsafe_function(int thing_ID){
if(thing_ID >= NUM_THINGS)
return -1;
...
}
int safe_function(unsigned int thing_ID){
if(thing_ID >= NUM_THINGS)
return -1;
...
}
int other_safe_function(int thing_ID){
if((thing_ID >=0 ) && (thing_ID >= NUM_THINGS))
return -1;
...
}
/* Error not caught */
unsafe_function(-1);
/* Error is caught */
safe_function((unsigned int)-1);
In the above example, what happens if a negative value is passed in as thing_ID? In the first case, you'll find that the negative value is not greater than or equal to NUM_THINGS, and so the function will continue executing.
In the second case, you'll actually catch this at run-time because the signedness of thing_ID forces the conditional to execute an unsigned comparison.
Of course, you could do something like other_safe_function, but this seems more of a kludge to use signed integers rather than being more explicit and using unsigned to begin with.
If length is also int, then you should use the same integer type, otherwise weird things happen when you mix signed and unsigned types in a comparison statement. Most compilers will give you a warning.
You could go on to ask, why should length be signed? Well, that's probably historical.
Also, if you decide to reverse the loop, ie
for(int i=length-1;i>=0 ;i--)
{
// do stuff
}
the logic breaks if you use unsigned ints.
for (unsigned int i = length; i--; )
for conditional has a side effect). Learn something new every day.
Mar 23, 2014 at 5:56
for(unsigned int i = length - 1; i < length; --i) (I personally don't favour one over the other, just for completeness).
Nov 20, 2018 at 7:58
I think the most important reason is if you choose unsigned int, you can get some logical errors. In fact, you often do not need the range of unsigned int, using int is safer.
this tiny code is usecase related, if you call some vector element then the prototype is int but there're much modern ways to do it in c++ eg. for(const auto &v : vec) {} or iterators, in some calculcation if there's no substracting/reaching a negative number you can and should use unsigned (explains better the range of values expected), sometimes as many posted examples here shows you actually need int but the truth is it's all about usecase and situation, no one strict rule apply to all usecases and it would be kinda dumb to force one over...
intiflengthmay be negative. If you useunsigned int, thenlengthgets converted tounsigned inttoo. -1 becomes something like 4294967295, and bad things happen.lengthis much smaller thanINT_MAXthen it is equivalent to useintandunsigned int. I go with the one that is less typing :)lengthis ofinttype why do you need to useunsigned?igoes to the max value (which is very unlikely ifiis an array index andiis 32-bits or bigger), it doesn't really matter if you use signed or unsigned. The only reasonunsignedexists is if you actually need that most significant bit to extend your positive range by another factor of 2 but not more.