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I hope this question is appropriate for stackoverflow... What is the difference between storing raw data bytes (8 bits) in a std::string rather than storing them in std::vector<char>. I'm reading binary data from a file and storing those raw bytes in a std::string. This works well, there are no problems or issues with doing this. My program works as expected. However, other programmers prefer the std::vector<char> approach and suggest I stop using std::string as it's unsafe for raw bytes. So I'm wondering why might it be unsafe to use std::string to hold raw data bytes? I know std::string is most often used to store ASCII text, but a byte is a byte, so I don't understand the preference of the std::vector<char>.

Thanks for any advice!

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It used to be that std::string was not guaranteed to provide contiguous storage, which matters if you do things like &s[0] to obtain a non-const pointer to data. But this is no longer true as of C++11. –  Pavel Minaev Mar 8 '12 at 23:57
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possible duplicate of vector <unsigned char> vs string for binary data –  Brian Neal Mar 9 '12 at 1:39
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up vote 5 down vote accepted

The problem is not really whether it works or it doesn't. The problem is that it is utterly confusing for the next guy reading your code. std::string is meant for displaying text. Anybody reading your code will expect that. You'll declare your intent much better with a std::vector<char>.

It increases your WTF/min in code reviews.

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I've never thought of it that way. Good point. I think of std::string as a container holding bytes. They may be ASCII bytes, but are not required to be. In my mind, std::string is std::bytes, but it's good to know that others think differently. I can see how this would be confusing. –  01100110 Mar 9 '12 at 0:21
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For more points of view, when I think "byte", I think uint8_t. For the most part, I only use char when I'm actually holding character data, when I'm using buffers (e.g. using new char[] to allocate the memory in which I'm going to construct an object), or to play nice with some established API that uses char. I would generally prefer to have have a std::vector<uint8_t> to store raw byte data. –  Hurkyl Mar 9 '12 at 1:09
    
google use a std::string for storing raw bytes in snappy. –  DarioOO May 4 '13 at 15:33
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In C++03, using std::string to store an array of byte data was not a good idea. By the standard, std::string did not have to store data contiguously. C++11 fixed that so that it's data does have to be contiguous.

So it would not be functional to do this in C++03. Not unless you have personally vetted your C++ standard library implementation of std::string to ensure that it is contiguous.

Either way, I would suggest vector<char>. Generally, when you see string, you expect it to be a... string. You know, a sequence of characters in some form of encoding. A vector<char> makes it obvious that it isn't a string, but an array of bytes.

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Thank you. We use C++11 so the bytes are contiguous. My idea of std::string seems to be broader than most. I appreciate your opinion. It's good for me to understand why others find this confusing, even though it works. –  01100110 Mar 9 '12 at 0:23
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Besides contiguous storage and code-clarity issues, I ran into some fairly insidious errors trying to use std::string to hold raw bytes.

Most of them centered around trying to convert a char array of bytes to std::string when interfacing with C libraries. For example:

std::string password = "pass\0word";
std::cout << password.length() << std::endl; // prints 4, not 9

Maybe you can fix that by specifying the length:

std::string password("pass\0word", 0, 9);
std::cout << password.length() << std::endl; // nope! still 4!

This is probably because the constructor expects to receive a C-string, not a byte array. There might be a better way, but I ended up with this:

std::string password("pass0word", 0, 9);
password[4] = '\0';
std::cout << password.length() << std::endl; // hurray! 9!

A little clunky. Thankfully I found this in unit testing, but I would have missed it if my test vectors didn't have null bytes. What makes this insidious is that the second approach above will work fine until the array contains a null byte.

So far std::vector<uint8_t> looks like a good option (thanks J.N. and Hurkyl):

char p[] = "pass\0word";
std::vector<uint8_t> password(p, p, p+9); // :)

Note: I haven't tried the iterator constructor with std::string, but this error is easy enough to make that it might be worth avoiding even the possibility.

Lessons learned:

  • Test byte-handling methods witih null byte-containing test vectors.
  • Be careful when (and I would say avoid) using std::string to hold raw bytes.
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Can you initialize a vector of char or uint8_t from a string literal in C++11? –  Matt McNabb Apr 5 at 0:21
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