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#include <iostream>
#include <string>
#include <vector>
#include <sstream>


using namespace std;

int main() {

    vector<double> vector_double;
    vector<string> vector_string;
    ...


    while (cin >> sample_string)
        {
            ...
        }

    for(int i = 0; i <= vector_string.size(); i++)
        {
            ....
        }

    for (int i = 0; i < vector_double.size(); i++)
        ....


    return 0;
}
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The error tells you exactly what is wrong. There is exactly one comparison operation per for loop, so you can see what's being compared to which. You can see that i is of a signed type (you picked the type!), so that logically implies that the other expression is of an unsigned type. –  Karl Knechtel Nov 2 '11 at 18:00

8 Answers 8

up vote 4 down vote accepted

Why is there a warning with -Wsign-compare ?

As the name of the warning, and its text, imply, the issue is that you are comparing a signed and an unsigned integer. It is generally assumed that this is an accident.

In order to avoid this warning, you simply need to ensure that both operands of < (or any other comparison operator) are either both signed or both unsigned.

How could I do better ?

The idiomatic way of writing a for loop is to initialize both the counter and the limit in the first statement:

for (std::size_t i = 0, max = vec.size(); i != max; ++i)

This saves recomputing size() at each iteration.

You could also (and probably should) use iterators instead of indices:

for (std::vector<int>::iterator it = vec.begin(), end = vec.end(); it != end; ++it)

Iterators work for any kind of containers, while indices limit you to C-arrays, deque and vector.

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this worked. although max() didn't work so i changed it to max. thanks –  code578841441 Nov 2 '11 at 18:06
    
I wouldnt use the max way because - depending on your loop, the size of the vec can change, so it is safer to check every time for the actual size of the vec. –  inf Nov 2 '11 at 18:25
    
Initializing the limit first only works if the container does not change size inside the loop. Otherwise, I would declare the limit as a const variable before the loop, to give the compiler additional ammunition against programmers trying to change the variable. –  Thomas Matthews Nov 2 '11 at 19:20
    
@ThomasMatthews: unfortunately, changing the vector won't change the limit either. I prefer to declare the limit within the loop because I want scopes as tight as possible for my variables. –  Matthieu M. Nov 2 '11 at 20:18
    
@bamboon: fair limitation, but I'll give you a slap on the head if you attempt it; it's too easy to screw up. There are dedicated algorithms (like remove_if) that are generally better suited to these tasks. And at worst, a while clause will generate the proper attention from the reader. –  Matthieu M. Nov 2 '11 at 20:23

It is because the .size() function from the vector class is not of type int but of type vector::size_type

Use that or auto and the messages should disappear.

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Your variable i is an integer while the size member function of vector which returns an Allocator::size_type is most likely returning a size_t, which is almost always implemented as an unsigned int of some size.

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Make your int i as size_type i.
std::vector::size() will return size_type which is an unsigned int as size cannot be -ve.
The warning is obviously because you are comparing signed integer with unsigned integer.

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Answering after so many answers, but no one noted the loop end.. So, here's my full answer:

  1. To remove the warning, change the i's type to be unsigned, auto (for C++11), or std::vector< your_type >::size_type
  2. Your for loops will seg-fault, if you use this i as index - you must loop from 0 to size-1, inclusive. So, change it to be
    for( std::vector< your_type >::size_type i = 0; i < vector_xxx.size(); ++i )
    (note the <, not <=; my advise is not to use <= with .begin() - 1, because you can have a 0 size vector and you will have issues with that :) ).
  3. To make this more generic, as you're using a container and you're iterating through it, you can use iterators. This will make easier future change of the container type (if you don't need the exact position as number, of course). So, I would write it like this:

for( std::vector< your_type >::iterator iter = vector_XXX.begin(); 
     iter != vector_XXX.end(); 
     ++iter )
{
    //..
}
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You get this warning because the size of a container in C++ is an unsigned type and mixing signed/unsigned types is dangerous.

What I do normally is

for (int i=0,n=v.size(); i<n; i++)
    ....

this is in my opinion the best way to use indexes because using an unsigned type for an index (or the size of a container) is a logical mistake.

Unsigned types should be used only when you care about the bit representation and when you are going to use the modulo-(2**n) behavior on overflow. Using unsigned types just because a value is never negative is a nonsense.

A typical bug of using unsigned types for sizes or indexes is for example

// Draw all lines between adjacent points
for (size_t i=0; i<pts.size()-1; i++)
    drawLine(pts[i], pts[i+1]);

the above code is UB when the point array is empty because in C++ 0u-1 with is a huge positive number.

The reason for which C++ uses an unsigned type for size of containers is because that choice it's an historical heritage from 16-bit computers (and IMO given C++ semantic with unsigned types it was the wrong choice even back then).

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int is signed by default - it is equivalent to writing signed int. The reason you get a warning is because size() returns a vector::size_type which is more than likely unsigned.

This has potential danger since signed int and unsigned int hold different ranges of values. signed int can hold values between –2147483648 to 2147483647 while an unsigned int can hold values between 0 to 4294967295 (assuming int is 32 bits).

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Declaring 'size_t i' for me work well.

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