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Before anyone says, "DON'T DO THIS as it is really bad".

  1. I understand the reasons for having a NUL terminated string.
  2. I know one can state something like
    char mystr[] = { 'm', 'y', ' ', 's', 't', 'r', 'i', 'n', 'g'};
    However, the convenience of the c-string representation is too great.

The rational for this is that I'm programming for a micro-controller and I need to store data into the programme's memory. Some of the data is in the form of bytes, words, dwords and floats. I'd like the data to include strings without the NUL contiguously.

I've tried templates that take <size_t N, char* A> and <size_t N, char (&A)[N]> as parameters in order to traverse the array and store its contents to a static array, but I can't seem to get it right. I think the standard may actually disallow this which is understandable in the general case, but unfortunate in specific cases (specifically, this one. ;) :( )

If I could remap the string as something like a boost::mpl::vector_c<char, ...> template, that would be better as I have other code that will store it properly, but dereferencing an array from within a template to be used as a const template parameter appears to be disallowed too.

Any ideas?


Psudocode example (this is kinda contrived as the real code is much larger, also I wouldn't probably read byte by byte like this, nor would I be using a literal to iterate to the end of the string. That would be embedded in the data as well somewhere.):

// this stores bytes in an array
template<typename X, typename T, T ...numbers>
struct x
  static PROGMEM volatile const T data[];
template<typename X, typename T, T ...numbers>
PROGMEM volatile const T x<X, T, numbers...>::data[] = { numbers... };

void main()
  // this will not work, but the idea is you have byte 0 as 1, 
  // byte 1 as 2 byte 2 as 3 byte 3 as 's', byte 4 as 'o'...
  // byte 22 as 'g', byte 23 as 4, byte 24 as 5, byte 25 as 6.
  typedef x<int, char, 1,2,3,"some embedded string",4,5,6> xx;
  for(i=0; i<20; ++i)
    Serial.print(pgm_read_byte_near(&xx::data[0] + 3));

Also note that I am not using C++11, this is C++0x, and possibly an extension.

share|improve this question
What are you trying to do with these strings? Statically initialize them? Overlay them on some address? Just use them as fixed-size strings? This seems so easy there must be some catch ... – Useless May 10 '13 at 13:36
Sounds like an interesting problem, but the question is not very clear. Could you provide a pseudo-code example of what you're after? – Angew May 10 '13 at 13:36
DON'T DO THIS as it is really bad – user155407 May 10 '13 at 17:14
Is your microcontroller short on memory? What is you objection to trailing '\0' bytes? It takes the same memory as your leading length byte. – brian beuning May 10 '13 at 17:52
To the DON'T DO THIS brigade: it's perfectly normal to want to reference fixed-width strings as such, especially for (de)serialising formats which have fixed-width character arrays. There's nothing magical or wonderful about nul-termination. The difficulty is with fixed-width string literals, where C strings are specially blessed by the language. – Useless May 10 '13 at 19:08

Third try

magic and trickery

If you were using C++11 (I know, but in its absence I think code generation is your best bet), it feels like a user-defined literal should be able to handle this. Eg, with:

template <char... RAW>
inline constexpr std::array<char, sizeof...(RAW)> operator "" _fixed() {
    return std::array<char, sizeof...(RAW)>{RAW...};

it would be nice if this worked:

const std::array<char, 7> goodbye = goodbye_fixed;

... but sadly it doesn't (the literal needs to be numeric, presumably for parsing reasons). Using "goodbye"_fixed doesn't work either, as that requires an operator "" _fixed(const char *s, int length) overload and the compile-time array has decayed to a pointer again.

Eventually we come down to invoking this:

const auto goodbye = operator "" _FS <'g','o','o','d','b','y','e'>();

and it's no better than the ugly first version. Any other ideas?

Second try

auto-generate the ugliness

I think you're right that you can't easily intercept the string literal mechanism. Honestly, the usual approach would be to use a build tool to generate the ugly code for you in a separate file (cf. internationalization libraries, for example).

Eg, you type

fixed_string hello = "hello";

or something similar in a dedicated file, and the build system generates a header

const std::array<char, 5> hello;

and a cpp with the ugly initialization from above below.

First try

missed the "looks like a string literal" requirement

I've tried templates ...

like this?

#include <array>
const std::array<char, 5> hello = { 'h', 'e', 'l', 'l', 'o' };

#include <cstdio>
int main()
    return std::printf("%.*s\n", hello.size(), &hello.front());

If you don't have C++11, Boost.Array will work, or you can roll your own. Note that this is just a type wrapper around const char[5], so should be ok to go in the data segment (I've confirmed it goes in .rodata with my local gcc).

share|improve this answer
It's not just the typing (though I guess that's part of it), it is the style. It is ugly and detracts from what I'm trying to do, which is to generate an array of bytes that convey to a user a readable message. – Adrian May 10 '13 at 13:59
char* hello = new char[6]; //5 + 1 for null. Is still more efficient memory wise, though we're talking an order of like 3 bytes. – ChrisCM May 10 '13 at 14:30
now you have a pointer (say 4 bytes), plus the heap management overhead, plus the nul terminator, and you still have the original constant literal values somewhere in the data segment. It's the latter OP wants to access directly, rather than copying them somewhere else. – Useless May 10 '13 at 14:35
Yep, I realized that after reading your comments on the question. The pseudo code helped a lot too. – ChrisCM May 10 '13 at 14:39
Maybe someone else knows a better way. I was optimistic about the user-defined literals :( – Useless May 10 '13 at 16:12

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