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char *local_buffer, *buff;
fgets(buff, 1024, fp);

local_buffer=strtok(buff,'\t'); //Error is coming with this line

I have already tried passing a character variable instead of '\t', but still its showing the same error.

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have you tried strtok(buff, "\t")? Make specific note of the double quotes instead of single quotes. – George Mitchell Sep 24 '13 at 19:27

You're passing in a character constant (which is equivalent to an integer), not a string, for the second argument.


What you want instead is:

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Yup. As mentioned here . Single quotes specifies a single char, which is interpreted as an int. ASCII code of that symbol for sure. – Kamiccolo Sep 24 '13 at 19:29
@Kamiccolo '\t' does not specify ASCII. Would work just as well with any other character C compliant encoding. Certainly ASCII is the most common. – chux Sep 24 '13 at 19:51
@chux thanks :) I doubt any of C standart deals with char encoding. I think compiler does. For example, as I remember, GCC has some flags for that. ummmm.... Some discousions about that: default encoding for C strings, encoding of C constants, gcc flags for charset control... – Kamiccolo Sep 24 '13 at 20:42


char *local_buffer, buff[1024];
fgets(buff, 1024, fp);

local_buffer=strtok(buff,"\t"); //Error is coming with this line


Double quotes ("") around characters represent a null-terminated C-style character string (char*)

Single quotes ('') around a character represents a character (apparently int)

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A quibble: Though string literals are read-only, they are not const. A string literal is of type char[N], where N is the length of the string plus one. It's converted, in most contexts, to char*. – Keith Thompson Sep 24 '13 at 19:35
Suggest char buff[1024] instead of char *buff. – chux Sep 24 '13 at 19:52
@KeithThompson: Hmm... I've never caught that before so I just skimmed the C99 docs... So technically a string literal is not a constant expression, but they are "evaluated" at translation time and modification of a pointer to a string literal is not caught by the compiler but is UB... Interesting... – George Mitchell Sep 24 '13 at 20:03
@Chux: Good catch, I saw the one mistake and was like: "Oooh! Oooh! I found it!" ... I blame it on cacheing and the evil that is "copy-and-paste". Thanks! – George Mitchell Sep 24 '13 at 20:05
@GeorgeMitchell: Right. It's for backward compatibility. Pre-ANSI C didn't have const, so there was no way to write a function that took a char* and promised not to modify what its parameter points to. A function that can take a string literal as an argument: foo("hello") should declare its parameter as const char*, but mandating it (by making string literals const) would have broken pre-ANSI code that didn't have the option of using const. (In C++, string literals are const because there was less concern for backward compatibility.) – Keith Thompson Sep 24 '13 at 20:10

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