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I know, the \0 on the end of the character array is a must if you use the character array with functions who expect \0, like cout, otherwise unexpected random characters appear.

My question is, if i use the character array only in my functions, reading it char by char, do i need to store the \0 at the end?

Also, is it a good idea to fill only characters and leave holes on the array?

Consider the following:

char chars[5];

chars[1] = 15;
chars[2] = 17;
chars[3] = 'c';

//code using the chars[1] and chars[3], but never using the chars
int y = chars[1]+chars[3];
cout << chars[3] << " is " << y;

Does the code above risk unexpected errors?

EDIT: edited the example.

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1. You don't need to, but it's a good idea. Especially if others will be using your string and expecting there to be a \0 at the end. For example, basic_string isn't guaranteed to be null terminated. 2. There are no holes in your array, each element in chars is initialized as if by char(0) upon construction. –  0x499602D2 Dec 8 '13 at 23:37
    
\0 is relevant for c-style character arrays only. Your code should be safe ,,, –  πάντα ῥεῖ Dec 8 '13 at 23:39
    
@0x499602D2 chars will not be initialized by '\0' as POD type if it is local variable. –  nyrl Dec 8 '13 at 23:43
    
@nyrl You're right, my bad. –  0x499602D2 Dec 8 '13 at 23:46

3 Answers 3

up vote 3 down vote accepted

The convention of storing a trailing char(0) at the end of an array of chars has a name, it's called a 'C string'. It has nothing to do, specifically, with char - if you are using wide character, a wide C string would be terminated with a wchar_t(0).

So it's absolutely fine to use char arrays without trailing zeroes if what you are using is just an array of chars and not a C string.

char dirs[4] = { 'n', 's', 'e', 'w' };
for (size_t i = 0; i < 4; ++i) {
    fprintf(stderr, "dir %d = %c\n", i, dirs[i]);
    std::cout << "dir " << i << " = " << dirs[i] << '\n';
}

Note that '\0' is char(0), that is it has a numeric, integer value of 0.

char x[] = { 'a', 'b', 'c', '\0' };

produces the same array as

char x[] = { 'a', 'b', 'c', 0 };

Your second question is unclear, though

//code using the chars[1] and chars[3], but never using the chars
int y = chars[1]+chars[3];
cout << chars[3] << " is " << y;

Leaving gaps is fine, as long as you're sure your code is aware that they are uninitialized. If it is not, then consider the following:

char chars[4]; // I don't initialize this.
chars[1] = '1';
chars[3] = '5';
int y = chars[1] + chars[3];
std::cout << "y = " << y << '\n';
// prints 100, because y is an int and '1' is 49 and '5' is 51

// later
for (size_t i = 0; i < sizeof(chars); ++i) {
    std::cout << "chars[" << i << "] = " << chars[i] << '\n';
}

Remember:

char one = 1;
char asciiCharOne = '1';

are not the same. one has an integer value of 1, while asciiCharOne has an integer value of 49.

Lastly: If you are really looking to store integer numeric values rather than their character representations, you may want to look at the C++11 fixed-width integer types in . For an 8-bit, unsigned value uint8_t, for an 8-bit signed value, int8_t

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char is implementation specific (signed on unsigned) –  bolov Dec 9 '13 at 0:07

Running off the end of a character array because it has no terminating \0 means accessing memory that does not belong to the array. That produces undefined behavior. Often that looks like random characters, but that's a rather benign symptom; some are worse.

As for not including it because you don't need it, sure. There's nothing magic that says that an array of char has to have a terminating \0.

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To me it looks like you use the array not for strings, but as an array of numbers, so yes it is ok not to use '\0' in the array.

Since you are using it to store numbers, consider using uint8_t or int8_t types from stdint.h, which are typedefs for unsigned char and signed char, but is more clear this way that the array is used as an array of numbers, and not as a string.

cout << chars[3] << " is " << y; is not undefined behaviour because you access the element at position 3 from the array, that element is inside the array and is a char, so everything is fine.

EDIT: Also, I know is not in your question, but since we are here, using char instead of int for numbers, can be deceiving. On most architectures, it does not increase performance, but actually slows it down. This is mainly because of the way the memory is addressable and because the processor works with 4 bytes / 8 bytes operands anyways. The only gain would be the storage size, but use this for storing on the disk, and unless you are working with really huge arrays, or with limited ram, use int for ram as well.

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Thanks, if i use the array to store both chars and numbers < 128, to save ram (instead of int), is it ok? –  SkyRipper Dec 8 '13 at 23:44
    
Yes, as long as you don't pass that array to a function that expects null-terminating c-string. –  bolov Dec 8 '13 at 23:45
    
Also, another question popped right in my head: if I compared two char arrays made this way, what will happen? –  SkyRipper Dec 8 '13 at 23:49
    
You cannot use strcmp, since it expects a null-terminated c-string. But, again, you can use these arrays as they would be arrays of int. –  bolov Dec 8 '13 at 23:56

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