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I am translating text files from one set of definitions to another, and I solved the problem by writing a small parser. Once I've identified a symbol I end up at a case statement that decides which translation routine to call depending on what the user selected input option was (these are codes that mean different things on different machines).

I am essentially taking multiple input formats and converting them to a single output format, over about 400 unique symbols.

The problem is that as this project has grown from a couple of simple translations, each in its own header file, into a dozen or more input formats it is getting cumbersome to maintain. Each of these header files contains a monster switch statement that produces the relevant output. It all works but really seems clumsy.

Will I resolve the maintainability issue by creating mapping tables ( ie a 2d array containing input and output symbols ) for each input machine and using a common translation routine taking the tables as input? Is there a better design I should consider?

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@Seth I can afford to make a speed trade off, the overall speed of the project is well within the requirements. –  Stephen Aug 23 '11 at 17:20

2 Answers 2

up vote 5 down vote accepted

A hash-table type structure would definitely be easier to maintain but there is at least one tradeoff, namely that your giant switch statement would almost certainly be faster because any decent compiler would optimise it into a jump table. But it (depending on the implementation) it shouldn't be that noticably slower unless you're doing 50 billion lookups or something. That said, a hash table could be optimised to be just as fast as a switch statement.

Bottom line: if you don't need to be sure that you're getting every ounce of speed possible, then I'd go with a hash table. If it matters, profile.

You might want to check out gperf which generates compile-time perfect hash tables.

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Or if you do, then generate the switch as a pre-process using a table as input. –  shambulator Aug 23 '11 at 16:16
    
@Anton yes, and isn't that what gperf does? –  Seth Carnegie Aug 23 '11 at 16:20
1  
May I add, creating the map from a configuration file grants even more flexibility –  dario_ramos Aug 23 '11 at 16:23
    
Never had occasion to use gperf, but it sounds like a good approach. –  shambulator Aug 23 '11 at 16:26
    
@dario_ramos I had had the same thought myself. –  Stephen Aug 23 '11 at 17:12

You can use macros to reduce code duplication. For example

#define ENTRY(ID, OUT) case ID: write_to_output(out); break;

switch (id) {
   ENTRY(ID1, "ID1");
   ENTRY(ID2, "ID3");
   ENTRY(ID2, "ID3");

   default:
     ....
}
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1  
The way he describes it, it sounds like each ID leads to a completely separate function. –  Mooing Duck Aug 23 '11 at 16:40
    
No problem to use this case with functions. Also this code allow to easy switch between CASE and map table. Just redefine ENTRY macros. –  vromanov Aug 23 '11 at 16:45
1  
So you're recommending ENTRY(ID1, myfunction(params);) as a replacement for case ID1: myfunction(params); break;? You're saving 5 characters per line to make it harder to read, for no other gain. Also, his question was Will I resolve the maintainability issue by creating mapping tables? and it isn't clear that your answer addresses that. –  Mooing Duck Aug 23 '11 at 16:57
    
I provide very simple ENTRY macro. I show what if you use macro, there is no difference between mapping table and case. –  vromanov Aug 23 '11 at 17:02
    
I think this method decreases maintainability. –  Rob K Aug 23 '11 at 17:03

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