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Quoting from Kernighan and Ritchie's 'The C Programming Language' Page 16 -

#include<stdio.h>

main()
{
int c;
c = getchar();

while(c!=EOF)
{
    putchar(c);
    c = getchar();
} 

getchar();
return 0;
}

"The type char is specifically meant for storing such character data, but any integer type can be used. We used int for a subtle but important reason. The problem is distinguishing the end of the input from valid data. The solution is that getchar returns a distinctive value when there is no more input, a value that cannot be confused with any real character. This value is called EOF, for "end of file". We must declare c to be a type big enough to hold any value that getchar returns. We can't use char since c must be big enough to hold EOF in addition to any possible char. Therefore we use int.".

I looked up in stdio.h, it says #define EOF (-1)

The book conclusively states that char cannot be used whereas this program "works just fine" (See EDIT) with c as char data type as well. What is going on? Can anyone explain in terms of bits and signed values?

EDIT:
As Oli mentioned in the answer, the program cannot distinguish between EOF and 255. So it will not work fine. I want to know what's happening - Are you saying that when we do the comparison c!=EOF, the EOF value gets cast to a char value = 255 (11111111 in binary; i.e. the bits 0 through 7 of EOF when written in 2's complement notation)?

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Define "works just fine". What inputs have you tried? –  Charles Bailey Dec 11 '11 at 12:47
    
@CharlesBailey - I am aware that the program will not work fine with 255 input as Oli mentioned in the answer below. I am trying to explore what is happening here. EDITing the question accordingly. –  Vikesh Dec 11 '11 at 12:51

2 Answers 2

up vote 3 down vote accepted

Your program doesn't work fine; it won't be able to distinguish between EOF and 255.

The reason it appears to work correctly is because char is probably signed on your platform, so it's still capable of representing -1.

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True. Are you saying that when we do the comparison c!=EOF, the EOF value gets cast to a char value = 255 (11111111 in binary; i.e. the bits 0 through 7 of EOF when written in 2's complement notation)? –  Vikesh Dec 11 '11 at 12:48
    
No, promotions rules are such that in c!=EOF, the comparison is made on ints. –  AProgrammer Dec 11 '11 at 12:52
    
@Vikesh: See my updated answer. –  Oliver Charlesworth Dec 11 '11 at 12:53
2  
And on a platform where char was an unsigned type, the expression c != EOF would always be true. –  Charles Bailey Dec 11 '11 at 12:55
1  
@Vikesh, putchar convert its input character to an unsigned char and write the result. -127 and 129 are thus indeed converted to the same character in 8 bit char implementations. –  AProgrammer Dec 11 '11 at 13:28

getchar result is the input character converted to unsigned char and then to int or EOF i.e. it will be in the -1 — 255 range that's 257 different values, you can't put that in an 8 bit char without merging two of them. Practically either you'll mistake EOF as a valid character (that will happen if char is unsigned) or will mistake another character as EOF (that will happen if char is signed).

Note: I'm assuming an 8 bit char type, I know this assumption isn't backed up by the standard, it is just by far the most common implementation choice.

share|improve this answer
    
Cool. So, one way we can avoid this ambiguity is that we use an int where all characters are represented by bits 0 through 7 (# 255) and EOF can be represented as 1111....32 times..... (assuming a 4 byte int)? There will be no conflict here. –  Vikesh Dec 11 '11 at 13:20
    
That's indeed the result of getchar(). –  AProgrammer Dec 11 '11 at 13:25

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