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I was reading the book Programming in C by Stephen G. Kochan about C programming. It states that:

"if a character value is used that is not part of the standard character, its sign might be extended when converted to an integer"

And then it states

"C language permits character variable to be declared unsigned, this avoiding this potential problem"

Can someone explain what problem may occur when extending the sign during conversion from char to int? And why does this matter? And what's wrong with an negative integer which is converted form a char?

Thank You

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2 Answers 2

up vote 5 down vote accepted

Let's say you take an innocent looking function from <ctype.h>, isupper().

It's defined int isupper(int c);. So it takes an int and returns an int.

Now, let's say that you're not a very careful programmer, and you just pass you char to this function. You think to yourself: "What could go wrong? This is the simplest function I know!".

But you'd be wrong. Somewhere, someone will have her MP3 player going into an endless crash-loop because of this terrible mistake.

And here's why. The most annoying type in C is char. It can be signed, it can be unsigned, you can force the compiler one way or another (but then you open another can of worms), and worst of all, the standard C library uses this type everywhere!

So, you use char, but you're not aware of the fact that it's actually signed in your environment. You use it as if the world is an ASCII world.

But the world isn't. And that MP3 happy owner is now listening to a famous German song whose name contains the letter ä ("extended ASCII code 132").

You pass this character to isupper(), and the compiler does the following horror: "Ah, it's a character, but the function takes an integer. I know! I will not warn the programmer, because that's too simple. I'll just convert the character to an integer and pass it along. How do I do that? Let's check the C standard... Hmmm... Simple, just take the value and sign-extend it (because char is signed, don't you know?). Now, this character has the value -124, so I'll just convert it to an int with the value -124. That was simple, I don't see what the fuss is about. Why should I even warn the programmer?!"

And now isupper() is called with -124 instead of 132.

But what's wrong with that? Nothing, except that the C library that comes with the compiler implements isupper() using a simple 128-byte array: it simply returns the value at the given index. The array is initialised with 0 everywhere except for upper-case ASCII codes, where it's 1. Such a simple and elegant implementation...

But wait, what happens if you pass a negative value to this function? Well, that's not allowed:

The c argument is an int, the value of which the application shall ensure is a character representable as an unsigned char or equal to the value of the macro EOF. If the argument has any other value, the behavior is undefined.

So, undefined behaviour. In this case, it tries to access memory that doesn't belong to the process, and BAM! the program crashes.

So you see, char is evil and you should never use it, unless you really understand how to use it properly.

(*) As Keith Thompson said in the comment, it is of course impossible to avoid using char. From strlen() to curl_easy_escape(), everybody uses char. But you should be aware of conversions to int, especially when char may hold a negative number. <ctype.h> functions and array indices are two places where it's easy to make costly mistakes.

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"So you see, char is evil and you should never use it, unless you really understand how to use it properly." -- I was with you until the last sentence. Using type char is absolutely unavoidable if your program contains string literals or uses any of the standard library functions that take char* arguments. Some things would be easier and cleaner if plain char were required to be unsigned, but the is*() functions in <ctype.h> are a fairly rare case where it makes a practical difference. –  Keith Thompson Nov 10 '12 at 1:10
Yes, I agree - the standard library (and many other libraries) use chars. You can't really avoid them. And I'm only exaggerating, of course - they're as dangerous as int which can also overflow and cause crashes. Who said programming was easy? –  Omri Barel Nov 10 '12 at 1:18
Exaggeration doesn't always come across well in print. You might consider editing your last sentence to make it clearer that it's not entirely serious. (Yes, explaining the joke spoils it a bit.) –  Keith Thompson Nov 10 '12 at 1:23
+1 what a hell of a way to answer a question! Loved the speaking-compiler part –  xci13 Nov 10 '12 at 1:39

In C, plain char can be either signed or unsigned and the choice is left to the implementation.

From C99, 6.2.5, 7:

The three types char, signed char, and unsigned char are collectively called the character types. The implementation shall define char to have the same range, representation, and behavior as either signed char or unsigned char.

So when a character is assigned to integer, there comes the ambiguity whether the sign bit of char is set or not as it would affect the resulting value of integer to which the plain char was assigned.

I believe, the quoted text from the book refers to this and using unsigned char explicitly avoids this problem.

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