I recently found the need to replace a std::string's contents with a substring of itself. The most logical function to call here I think is the following, from http://www.cplusplus.com/reference/string/string/assign/:

substring (2)      string& assign (const string& str, size_t subpos, size_t sublen);
     Copies the portion of str that begins at the character position subpos and spans sublen characters (or until the end of str, if either str is too short or if sublen is string::npos).

         Another string object, whose value is either copied or moved.

         Position of the first character in str that is copied to the object as a substring. If this is greater than str's length, it throws out_of_range. Note: The first character in str is denoted by a value of 0 (not 1).

         Length of the substring to be copied (if the string is shorter, as many characters as possible are copied). A value of string::npos indicates all characters until the end of str.

However, I'm not certain if this is permissible, or if it can corrupt the string data. I know that memcpy(), for example, does not allow (or at least does not guarantee non-corruption in the case of) overwriting an area of memory with (a portion of) itself (see memcpy() vs memmove()). But I don't know if the above method has the same limitation.

More generally, can you please comment if I should have been able to figure out the answer to this question myself? There's nothing in the documentation I linked to that makes it clear to me what the answer to this question is, except perhaps the qualifier "Another" in the description of the str parameter ("Another string object"), which seems to imply it cannot be the this object, although I don't find that to be unequivocal. Is that a weakness in the documentation?

  • 2
    Assignable C++ classes often implement the copy assignment operator in a safe way (i. e. they check for assigning *this = *this). Standard container classes are no exception. However, even this is not required – a substring of a string is not the string itself, anymore. The "Cplusplus.com" site, again, seems to have poor wording – cppreference.com uses the word "replaces" instead, from which it's quite clear that what you're doing should be safe. Jan 25, 2015 at 22:01
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    @TheParamagneticCroissant, why does the word "replaces" make it clear that it should be safe? By the same token, you could say that memcpy() replaces the contents of the destination buffer, but that doesn't mean it's safe.
    – bgoldst
    Jan 25, 2015 at 22:03
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    @bgoldst I am fairly sure that this scenario is not fully covered by the standard, making it dogdy to work with. If you want to stay safe, use substr and the assignment operator (i.e. work with a copy).
    – Columbo
    Jan 25, 2015 at 22:11
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    @dyp Unfortunately that doesn't suffice. Maybe this should be subject of an EWG issue.
    – Columbo
    Jan 25, 2015 at 22:51
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    @Columbo I suspect it might end up just like LWG 526.
    – dyp
    Jan 25, 2015 at 22:53

3 Answers 3



This operation is defined by [string::assign]/4:

basic_string& assign(const basic_string& str, size_type pos,
    size_type n = npos);

Effects: Determines the effective length rlen of the string to assign as the smaller of n and str.size() - pos and calls assign(str.data() + pos rlen).

(dat typo)


basic_string& assign(const charT* s, size_type n);

Effects: Replaces the string controlled by *this with a string of length n whose elements are a copy of those pointed to by s.

Nothing about this says anything about whether str.assign(str, 0) is at all safe (in particular, we have no way of knowing when the copy of each character will occur!).

Therefore I strongly suggest you avoid doing it.

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    For vector::push_back etc, it has been argued that the omission of any requirement guarantees it is well-behaved (it is not allowed to fail). libstdc++ and libc++ seem to support assigning aliasing strings explicitly.
    – dyp
    Jan 25, 2015 at 22:54
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    @dyp: I don't see how the omission of a requirement implicitly introduces a requirement! Well, I sort of do in that if no pre-requisite is noted then one might assume there are none. But this is all guesswork, and I'd much rather conclude that unless this is specifically addressed then it's unsafe by definition. Jan 25, 2015 at 22:55
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    @dyp Was just about to say that after I read your link. I believe that the call should be fine as long as the arguments are reasonable.
    – Columbo
    Jan 25, 2015 at 22:55
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    @Columbo, when assigning part of a string to itself it always overlaps, because you're assigning a part of a string to itself. Jan 25, 2015 at 23:00
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    I think the spec is clear. "Replaces the string ... whose elements are a copy of those pointed to by s" - this means that the implementation is required to make sure it has this effect. No preconditions mention overlapping inputs. Therefore it must be safe to call it with overlapping inputs, because the implementation must have the described effect
    – sehe
    Jan 26, 2015 at 7:17

Don't try that.

It may work, but as it is suggested in the selected answer, it is not ensured to be safe. In the best case, depending on your implementation, a temporary object would be created and then destroyed.

One way to emulate that, which does not create temporary objects and is indeed faster than calling to assign and substr is the following:

void trimTo(string & s, size_t pos = 0, size_t len = string::npos)
    s.erase(pos + len); 
    s.erase(pos, len); 


trimTo(myString, fromPos, numChars);

works as

myString.assign(myString.substr(fromPos, numChars);

but it's at least twice faster.


Apparently it was the same decision as with operator= (protect against self assignment).

_Myt& assign(const _Myt& _Right,
    size_type _Roff, size_type _Count = npos)
    {   // assign _Right [_Roff, _Roff + _Count)
    _Count = _Right._Clamp_suffix_size(_Roff, _Count);

    if (this == &_Right)
        erase((size_type)(_Roff + _Count)), erase(0, _Roff);    // substring
    else if (_Grow(_Count))
        {   // make room and assign new stuff
            _Right._Myptr() + _Roff, _Count);
    return (*this);
  • 1
    Good to see that whatever implementation you've quoted source for protects against this. What implementation is it? What version? Did it change over time? What do other implementations say? What does the standard say? Did that change over time? Dec 12, 2019 at 11:14
  • The code snippet was taken from VS 2015 so I guess that any MS STL code newer than that has it. Dec 13, 2019 at 12:12
  • 1
    There have been new standards since then; not a safe assumption. Dec 13, 2019 at 12:17

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