string_view was a proposed feature within the C++ Library Fundamentals TS(N3921) added to C++17

As far as i understand it is a type that represent some kind of string "concept" that is a view of any type of container that could store something viewable as a string.

  • Is this right ?
  • Should the canonical const std::string& parameter type become string_view ?
  • Is there another important point about string_view to take into consideration ?
  • 1
    Finally, someone realizes that strings need a different semantics, although introducing string_view is only a small step. – John Z. Li Aug 31 at 3:19
up vote 140 down vote accepted

The purpose of any and all kinds of "string reference" and "array reference" proposals is to avoid copying data which is already owned somewhere else and of which only a non-mutating view is required. The string_view in question is one such proposal; there were earlier ones called string_ref and array_ref, too.

The idea is always to store a pair of pointer-to-first-element and size of some existing data array or string.

Such a view-handle class could be passed around cheaply by value and would offer cheap substringing operations (which can be implemented as simple pointer increments and size adjustments).

Many uses of strings don't require actual owning of the strings, and the string in question will often already be owned by someone else. So there is a genuine potential for increasing the efficiency by avoiding unneeded copies (think of all the allocations and exceptions you can save).

The original C strings were suffering from the problem that the null terminator was part of the string APIs, and so you couldn't easily create substrings without mutating the underlying string (a la strtok). In C++, this is easily solved by storing the length separately and wrapping the pointer and the size into one class.

The one major obstacle and divergence from the C++ standard library philosophy that I can think of is that such "referential view" classes have completely different ownership semantics from the rest of the standard library. Basically, everything else in the standard library is unconditionally safe and correct (if it compiles, it's correct). With reference classes like this, that's no longer true. The correctness of your program depends on the ambient code that uses these classes. So that's harder to check and to teach.

  • 16
    The ship sailed on that philosophy with reference_wrapper, didn't it? – Steve Jessop Dec 27 '13 at 17:07
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    @KerrekSB I am afraid I don't follow. Could you expand on the "such referential view classes have completely different ownership semantics from the rest of the standard library" part, please? It's not clear to me: How is it different from dangling references / pointers? Or invalidated iterators due to insertion (e.g. std::vector)? We have these issues already, it is very natural to me that a non-owning view will have similar issues as non-owning pointers / references / iterators have. – Ali Dec 27 '13 at 17:26
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    @Ali: When you're using any other standard library container, you can assert the correctness of the code just by looking at the code that uses the container. Not so for string_view. (I wasn't saying that you can never write broken code. Just that the brokenness is local.) – Kerrek SB Dec 27 '13 at 18:57
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    I'm surprised they didn't go with std::range from boost::iterator_range - IMO it's better than the string_view idea – Charles Salvia Jun 4 '15 at 19:16
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    @nwp: Many people and languages have come to lament C++'s awful defaults and think that "const" and "unshared" should be the default, with "mutable" and "shared" the explicit, rare exceptions. – Kerrek SB Dec 9 '15 at 14:33

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