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I tried to write the 255 ascii character to the console, but i've got an infinite loop

for(char i=0; i<256; i++) {
    cout << i << ' ';
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change char to int and note the difference. – K. Brafford Nov 24 '12 at 16:05
You are not saving anything by making i a char. Use the int type it is supposed to be the natural size for an integer on your architecture (and thus optimally efficient for this kind of loop). – Loki Astari Nov 24 '12 at 17:22
up vote 13 down vote accepted

Because i can never be greater or equal to 256. It will overflow before it. Remember that it's type is char whose maximum value can be 255 if it is unsigned, otherwise 127 if it is signed.

Whether char is unsigned or signed, is implementation-defined. But usually, to my experience, it is signed, which means usually the maximum value char can attain is 127.

So i increments from 0 to 127, then becomes -128 from which it increases upto 127, and so on, well if it is signed. If it is unsigned, then it will go from 0 to 255, then next it will become 0 (due to overflow), and the story starts again, and again!

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for(unsigned char i=0; i<256; i++) { cout << i << ' '; } – Hard Rain Nov 24 '12 at 16:04
@HardRain: What is that? Even that is infinite loop. – Nawaz Nov 24 '12 at 16:04
But it's unsigned now – Hard Rain Nov 24 '12 at 16:16
@HardRain: Read the last para, I edited it. – Nawaz Nov 24 '12 at 16:20

Because all values of char are smaller than 256.

For the comparison, the char i is converted to int, resulting in a value between -128 and 127 usually (with signed two's complement 8-bit chars), or between 0 and 255 (inclusive) if char is an unsigned 8-bit type.

Once the maximal value a char can hold is reached, a further increment will lead to a wrap-around to 0 if char is unsigned, and to an implementation-defined conversion of the int value 128 that the increment produced to char when it is stored back, usually the result is -128, when char is signed.

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You should compile with warnings on (-Wtautological-compare for this issue).

In C++, each integral type has a range of possible values. This range is (normally) implementation defined, though on common platforms (x86) it is frequent to have:

  • signed char in [-128, +127] (+)
  • short in [-2*15, 2*15-1]
  • int in [-2*31, 2*31-1]

If you try to increment a signed integral type beyond its maximum value, you enter the realm of undefined behavior. On common implementations, it wraps around (just like for unsigned types), so 127 + 1 becomes -128 (for a char).

When you compare with 256, you first cast the value from i into an int (the type of 256 without integral suffixes) and then perform the comparison. However, since i is always in the [-128, 127] (+) range it is strictly inferior to 256 so the condition is always true.

(+) It is implementation defined whether char is signed or not, if char is unsigned then its range is more likely [0, 255].

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Try this!

for(int i=0; i<256; i++)
    cout << char(i) << " ";
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