My current code uses some #defines to have all the constants in a single .h file.

A new modification to the program specification is coming this way and this will require some of the constants to be case-dependant, i.e. a variable will set the case (of 3 possible) and according to it the appropriate value must be used for some of these constants, e.g:

#define CONSTANT1 1.0F
#define CONSTANT2 2.0F

float foo(float var)
    return (CONSTANT1 + CONSTANT2*var);

I can currently think of approaching this problem in 2 ways:

Way1- have a #define for each of the possible values, implement a switch-case with 3 copies of the code and in each use the corresponding constant

#define CONSTANT1_a 1.0F
#define CONSTANT2_a 2.0F

#define CONSTANT1_b 2.0F
#define CONSTANT2_b 3.0F

#define CONSTANT1_c 3.0F
#define CONSTANT2_c 4.0F

case 0:
     float foo(float var)
         return (CONSTANT1_a + CONSTANT2_a*var);
case 1:
     float foo(float var)
         return (CONSTANT1_b + CONSTANT2_b*var);
case 2:
     float foo(float var)
         return (CONSTANT1_c + CONSTANT2_c*var);

Way2- have the constants no more as #defines, but as global arrays defined at the top of the corresponding file and have a single implementation of the code with the "case" that selects the position in the array

float CONSTANT1 [] = {1.0F,2.0F,3.0F};
float CONSTANT2 [] = {2.0F,3.0F,4.0F};

float foo(float var)
    return (CONSTANT1[var_case] + CONSTANT2[var_case]*var);

I tend towards the second solution, as it seems more maintanable and clean, but the use of global arrays does not sound great. Is there an alternative? Is there a way to have a #define containing an array? (or something equivalent)

EDIT: my apologies for not mentioning before. The code must be C89 (ANSI C).

  • 3
    Please add a relevant coding example to each one of the approaches that you have in mind. It is hard to follow your exact intentions for each case. – barak manos Oct 23 '14 at 12:12
  • 1
    Compound literal : #define ARRAY ((const char *[]){ "ZERO", "ONE", "TWO", "THREE"}) – BLUEPIXY Oct 23 '14 at 12:14
  • 1
    It's a runtime-switch? – Deduplicator Oct 23 '14 at 12:14
  • @BLUEPIXY, I was just starting to think of writing an answer with this. Only thing that you are missing, I think is to have the type const-qualified, (char const*const[]){ ... }, this leaves the compiler more freedom. – Jens Gustedt Oct 23 '14 at 12:16
  • @JensGustedt yes, i forget const. – BLUEPIXY Oct 23 '14 at 12:18

Using global arrays for constants is fine. Your preprocessor constants were already global in the first place. Just add const and you are done.


const float CONSTANT1 [] = {1.0F,2.0F,3.0F};
const float CONSTANT2 [] = {2.0F,3.0F,4.0F};


extern const float CONSTANT1 [];
extern const float CONSTANT2 [];

Or, if you want to make arrays private to your current compilation unit, add static.

static const float CONSTANT1 [] = {1.0F,2.0F,3.0F};
  • 1
    "... arrays private to your current compilation unit, add static" and add them to the .c file they shall be private to. – alk Oct 23 '14 at 13:01
  • if they are private to one compilation unit I can skip the extern lines in the .h file, right? – Federico Oct 23 '14 at 13:13
  • @Federico Yes, no need for header. – user694733 Oct 23 '14 at 13:26

I can't verify this right now, but this might work: A #define Macro can be an array, or pretty much anything. Do it like this:

#define CONSTANTS int temp[]={1,2,3,4};
//.. Later..
int x = (CONSTANTS)[2];

All a #define does is say to the compiler: before you compile this, replace every instance in the code of the defined constant ( in this case CONSTANTS) with whatever comes after (in this case "temp[]={1,2,3,4}"). So the above code would be compiled as

int x = (temp[]={1,2,3,4})[2];

This becomes unreliable though, because temp would have to be a reserved variable name within that scope. I recommend using the switch or a standin variable plus a couple of ternary conditionals for a one-liner.

  • This won't compile, as after pre-prcoessing the code would look like: int x = (int temp[]={1,2,3,4};)[2];. If your intention was to use compound literals it should have been: #define CONSTANTS ((const int[]){1, 2, 3, 4}), which however wouldn't compile either as compound literals are not available under C89. – alk Oct 23 '14 at 13:10
  • My bad. Thanks for the correction. – Vincent Oct 23 '14 at 13:32

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