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


int c;
c = getchar();

    c = 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?

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
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
@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.

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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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