I'm trying to replace the switch/case structure by an other tool doing the same thing but with better performance ( less execution time ... ), I have in mind the #ifdef method but I have no idea how to use it in such situation:

float k_function(float *x,float *y,struct svm_model model)
    int i;
    float sum=0.0;
    case LINEAR :
        return result1;
    case POLY :
        return result2;
    case RBF :
        return result3;
    case SIGMOID :
        return result4;
    default :
        return 0;

PS :

typedef   enum   kernel_type   {LINEAR, POLY, RBF, SIGMOID};
  • 4
    Before you are trying nanoptimizations, you better understand the difference between the compiler and the preprocessor and function of each. – Eugene Sh. Jul 6 '18 at 13:42
  • 1
    You won't be able to use preprocessor conditionals unless model.model_kernel_type is a constant defined at compile time. It doesn't look like it is. – ritlew Jul 6 '18 at 13:44
  • 3
    are you sure you need better performance ? and if so, are you sure that a change in this bit of code will give you the performance gain you need ? ie. did you measure this ? – Sander De Dycker Jul 6 '18 at 13:46
  • Have you actually profiled the performance of your code and determined that this switch statement is actually a performance problem? – Andrew Henle Jul 6 '18 at 13:49

As I already commented, I do not believe preprocessor statements are what you are looking for. To use a preprocessor conditional, model.model_kernel_type would need to be a constant defined using a #define statement.

I do not know the internals of the switch statement, as it could be O(n) or O(1) depending on how the compiler handles it. If you needed to be sure of a O(1) time complexity, you could simply replace your switch statement with a lookup table like so:

float model_type_results[4] = {result1, result2, result3, result4};


return model_type_results[model.model_kernel_type];
  • Thanks. I've been bouncing between C and python a lot lately. – ritlew Jul 6 '18 at 13:52
  • and a decent optimiser would probably generate very similar code to this, anyway. – Gem Taylor Jul 6 '18 at 13:53
  • I'd note that this is not likely to be faster than the original switch statement. Barring some really good optimizations, the small lookup array has to be initialized for every call to the function. You can avoid that by making it static, but that means an extra memory lookup and dereference. This is definitely one option the OP should actually benchmark, but I suspect the original switch statement is going to be hard to beat performance-wise. Especially if the original actually only has four cases in it. – Andrew Henle Jul 6 '18 at 13:56
  • @GemTaylor From my experience, no, not necessarily. This is requiring space, and the optimizers usually don't decide on tradeoffs unless explicitly instructed. – Eugene Sh. Jul 6 '18 at 13:57
  • The jump table and code to jump through it can be smaller than the equivalent chain of conditional statements if all possible values in a range are covered. Whether the compiler can deduce that the jumps can be further optimised to calls, I don't know, but I'd have thought that was an easy tradeoff, albeit very specific. – Gem Taylor Jul 6 '18 at 14:00

I imagine the problem is not just 1 case statement, but code that is littered with similar case statements.

The c++ virtual function table is a similar concept for avoiding these sorts of case statements proliferating through the code. It is not actually difficult to implement function table semantics in C structures.

Traditionally, they have been written as just member function pointers, but the use of a single per-class function table pointer is more space efficient if there are many objects of each class.


#ifdef is a compile-time operation, not a run-time operation. It's not the solution you are looking for here.

Honestly, if your switch only contains four cases, there's not a lot you can do to improve on it. If you're seeing any kind of slowdown here, it's in how your results are being computed (which you don't show).

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