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I have some pre-processor definitions that make storing UI text easy in a single array (see below). Also makes supporting other languages less cumbersome.

#define DECLARE_STRING_ENUM_FST(name, value) name
#define DECLARE_STRING_ENUM_SND(name, value) value
#define DECLARE_STRING_ENUM(name, macro) \
    typedef enum name { macro(DECLARE_STRING_ENUM_FST) } name; \
    static const char* name##_sztable[] = { macro(DECLARE_STRING_ENUM_SND) }; \

// this is a string table usage 
#define MSG_ENUM_(X) \
    X(STR_ONE, "One"), \
    X(STR_TWO, "Two"), \
    X(STR_THREE, "Three"), \
    X(STR_PRESS_ENTER, "Press Enter")

// the actual declaration is here
DECLARE_STRING_ENUM(menu, MSG_ENUM_)

the result is an array of strings and an enum representing indexes in the array.

However, since it is an array of pointers to constant char*, it takes up ram which is very scarce on this device. The couple of large string tables in the program are taking up ~30% of the available RAM. so this can't be ignored.

Dependency of RAM would go to zero if the enum values were starting positions of the null-terminated sub-strings in one large const char string stored in code space.

i.e:

menu_sztable[] = "One\0Two\0Three\0Press Enter\0";
STR_ONE -> 0
STR_TWO -> 4
STR_Three -> 8
STR_PressEnter -> 14

Is there a clever way to use the C-Preprocessor to make this? I'd like to avoid building up the enum manually or having to to write a pre-build command program that converts the arrays.

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1  
Isn't this more or less what the compiler does for you with all string literals? –  cdhowie Oct 9 '12 at 17:22
    
The strings could be embedded into a packed struct and the enums taken with offsetof directive. It's then a linker issue to put the struct to .text segment. –  Aki Suihkonen Oct 9 '12 at 17:25
    
@AkiSuihkonen can you provide an example? That sounds promising. –  MandoMando Oct 9 '12 at 17:27
    
For easily automating things like this, why try to make due with the C preprocessor? Write a simple python script that generates your perfectly efficient C code. That's easy, clean, easily translated across languages. Just add your python script as a step in your build process. –  TJD Oct 9 '12 at 17:34
1  
Have you tried static const char* const name##_sztable[] = /* ... */ which should put the array of pointers into ROM with most embedded device tool chains (assuming that ROM/flash space isn't an issue as well)? –  Michael Burr Oct 9 '12 at 18:00

4 Answers 4

up vote 1 down vote accepted

If you make your array of pointers const most (all?) tool chains will place that array into ROM/flash which usually has less of an issue with space:

static const char* const name##_sztable[] = /* ... */
//                 ^^^^^
share|improve this answer

It's not a full solution, maybe a halfway ...

#include <stdlib.h>
#include <stddef.h>
static struct foo {
    char arr0[5];
    char arr1[4];
    char arr2[4];
} tmp = { "Zero","One","Two"};
enum {
   ARR0 = offsetof(struct foo, arr0),
   ARR1 = offsetof(struct foo, arr1),
   ARR2 = offsetof(struct foo, arr2)
};

int main()
{
      printf("%d %d %d\n",ARR0,ARR1,ARR2);
      return 0;
}

Can't remember the linker option, but when disassembling this, I'll get:

    .file   "tst.c"
    .data     // manually replace with .text
_tmp:
    .ascii "Zero\0"
    .ascii "One\0"
    .ascii "Two\0"  // manually insert .data here, recompile and run...
    .def    ___main;        .scl    2;      .type   32;     .endef
share|improve this answer
    
thanks. It's a start. Perhaps I could use the sizeof for the array sizes and preprocessor to spit this section out. I should be able to force .readonly with the const keyword. –  MandoMando Oct 9 '12 at 18:01

You could first define a whole bunch of compile time constants that will hold the postion of your strings, something like

#define DEFINE_LENGTH(NAME, STR) NAME ## _POS,       \
      NAME ## _DUMMY = (NAME ## _POS + sizeof(STR))

inside the declaration of an enumeration

enum {
  ... your macro expansion goes here ...
};

Then you create a long string by concatenating

#define DEFINE_COMPONENT(NAME, STR) STR "\0"

inside the initialization of the long string

char const table[] = ... your macro expansion goes here ...;

Now your string pointers are are obtained with

#define DEFINE_VARIABLE(NAME, STR) *const NAME = &table[NAME ## _POS]

inside the following setting:

char const  ... your macro expansion goes here ...;

(maybe there are still some syntax errors here and there but I hope you get the picture.)

All that would be simpler if you'd use a macro meta-package such as boost or P99.

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Why not do:

#if ENGLISH
#define STR_ONE "one"
#define STR_TWO "two"
...
#elif SPANISH
#define STR_ONE "uno"
#define STR_TWO "dos"
...
#endif

Is there a reason why you need offsets and not string pointers themselves?

share|improve this answer
    
Yes, lists. e.g. as slow medium fast, or January, February, etc. You can index jump to the right string. –  MandoMando Oct 9 '12 at 18:26

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