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I have a function which needs to encode strings, which needs to be able to accept 0x00 as a valid 'byte'. My program needs to check the length of the string, however if I pass in "\x00" to std::string the length() method returns 0.

How can I get the actual length even if the string is a single null character?

  • 4
    Have a look at the available constructors and which is used in your case. – chris Jan 14 '18 at 23:41
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    You could also try strlen("\x00"); for the same result. – Bo Persson Jan 15 '18 at 1:36
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    See also: stackoverflow.com/questions/48210211/… – M.M Jan 15 '18 at 2:52
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    @JackAidley the data is coming in as a string, once processed it is stored as a vector of bytes. – Adamski Jan 15 '18 at 10:56
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    @BoPersson, strlen(3) is not a C++ function. It's a C legacy function, that does not know about c++ string type. You cannot use it with strings but by converting the string to a legacy C char * string. That way, strlen(3) doesn't know about array sizes, it only searches for the \0 char and returns the difference between the pointer passed to it and the place where it found the null char. – Luis Colorado Jan 16 '18 at 8:58
29

You're passing in an empty string. Use std::string(1, '\0') instead.

Or std::string{ '\0' } (thanks, @zett42)

  • 8
    Shorter: std::string{ '\0' } – zett42 Jan 14 '18 at 23:50
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    Perhaps coincidentally this question just popped up. – Charles Jan 15 '18 at 0:25
  • @zett42: since when exists a constructor of std::string with only a single char argument? – CAF Jan 15 '18 at 13:10
  • @CAF Since C++11. It is the constructor that takes an initializer list (9). – zett42 Jan 15 '18 at 13:30
  • or std::string("\0", 1), or std::string{ '\0' }. – Toby Speight Jan 15 '18 at 15:06
45

std::string is perfectly capable of storing nulls. However, you have to be wary, as const char* is not, and you very briefly construct a const char*, from which you create the std::string.

std::string a("\x00");

This creates a constant C string containing only the null character, followed by a null terminator. But C strings don't know how long they are; so the string thinks it runs until the first null terminator, which is the first character. Hence, a zero-length string is created.

std::string b("");
b.push_back('\0');

std::string is null-clean. Characters (\0) can be the zero byte freely as well. So, here, there is nothing stopping us from correctly reading the data structure. The length of b will be 1.

In general, you need to avoid constructing C strings containing null characters. If you read the input from a file directly into std::string or make sure to push the characters one at a time, you can get the result you want. If you really need a constant string with null characters, consider using some other sentinel character instead of \0 and then (if you really need it) replace those characters with '\0' after loading into std::string.

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    "But C strings don't know how long they are" -- To be more precise, std::string("\x00") first creates a string literal of type const char[2], so at this point the size is still well known. Though this array decays into const char* which is passed to the std::string constructor. At this point the array size is "lost" because the constructor can only scan for the 1st \0 to determine the size. In theory std::string c'tor could have an overload for arrays, that would allow embedded \0 in string literal. – zett42 Jan 15 '18 at 0:17
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    @zett42 such an overload would have to be templated, and be instantiated for each new length of the array — there's no other native way to pass sized arrays in C++. – Ruslan Jan 15 '18 at 6:28
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    @Ruslan So? That would have been perfectly acceptable. Of course it would also have been silly, as it’d break the C string literal convention and thus violates the user’s expectation in most cases (nobody wants to find a null char in their string when initialising it as std::string("hi")). – Konrad Rudolph Jan 15 '18 at 11:13
  • @KonradRudolph So, that would generate a new function for each size of string literals passed to std::string::string. Not perfect from code size perspective; you'd only have to hope the linker will omit these functions and the compiler inline their code into callers. – Ruslan Jan 15 '18 at 13:40
  • @Ruslan Code inlining wouldn’t reduce code size. On the contrary, to help with generated code size the constructor template could dispatch to a size-erased non-generic function that isn’t inlined. But for this particular constructor, inlining probably works just fine, and results in the same code size regardless of whether you’d have a constructor template or a non-template constructor (since it’s inlined either way). – Konrad Rudolph Jan 15 '18 at 13:51
24

With C++14, you can use a string literal operator to store strings with null bytes:

using namespace std::string_literals;

std::string a = "\0"s;
std::string aa = "\0\0"s; // two null bytes are supported too
  • 6
    just using namespace std::literals; also works. – sp2danny Jan 15 '18 at 10:45
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    @sp2danny ... but may also bring in other, unwanted literal operators (e.g. from std::literals::chrono_literals). – Toby Speight Jan 15 '18 at 15:08

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