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I'm working on a c++ project that reads MIDI-data from an external USB-device. The program is supposed to call certain functions depending on which fader/knob/button on the USB-device is shiftet/rotated/pressed (such as vol +- or mute/unmute channel).

The only way I came up with finding out which fader/knob/button was changed was using a pretty big switch statement that basically checks every incoming midi event.

looks sort of like this :


    case 1 : cout << "Fader 1 Value : " << MidiMessage.get3rdByte() << endl;  
    case 2 : cout << "Fader 2 Value : " << MidiMessage.get3rdByte() << endl;  
    case 10 : cout << "Button 1 Value : << "MidiMessage.get3rdByte() << endl;  

Isn't there a more efficient/smart way to do this?

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Possibly std::map<unsigned char,void (*)(MidiMessage *message, unsigned char secondByte)>;, similar methods such as volume up and down could share the same function pointer but act correctly based on secondByte. –  Joe Dec 7 '11 at 19:02
With C++11 (or TR2) I'd prefer an std::unordered_map because it has constant lookup (assuming a good hash), unlike std::map which has logarithmic lookup. Note that most older C++ implementations offer a (non-standard) hash_map for the same functionality. –  celtschk Dec 7 '11 at 19:35
Actually I now notice that it's a char as frst argument, therefore an unordered_map would be overkill; just make an array (or std::vector) of function pointers (if there are char values not giving a valid command, make the entry point to an error function). This will be O(1), and faster than unordered_map. –  celtschk Dec 7 '11 at 19:53
The switch statement is very efficient. Which is pretty irrelevant considering how slow Midi moves. –  Hans Passant Dec 7 '11 at 20:32
@celtschk: it seems to me that your comment is really an answer. you should use it to answer the question here. –  Zan Lynx Dec 7 '11 at 22:25

2 Answers 2

up vote 2 down vote accepted

Since your switching is done on a byte (and thus just has 256 different values; I'm pretty sure MIDI files are based on 8-bit bytes), the best option is probably to use a simple array of function pointers:

typedef void (*MidiAction)(MidiMessageType& message);

action_fader_1(MidiMessageType& message)
  std::cout << "Fader 1 Value : " << message.get3rdByte() << std::endl;

action_fader_2(MidiMessageType& message)
  std::cout << "Fader 2 Value : " << message.get3rdByte() << std::endl;


MidiAction midi_actions[256] = {
   /*  0 */ action_whatever,
   /*  1 */ action_fader_1,
   /*  2 */ action_fader_2,
   /* 10 */ action_button_1,


// this goes where your switch statement was:

This array just uses 1KB (32 bit platforms) or 2KB (64 bit platforms), gives guaranteed constant time lookup, has no hidden overhead, and possibly your compiler implements your big switch statement internally as lookup table anyway (so the only overhead you get is an extra function call).

Note that if there are invalid byte values, the array entry should point to an explicit error function (instead of a simple 0), so your program can handle the error gracefully.

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Most compilers will compile a large switch like that into a jump table (or a table lookup for simple values), so I would suggest you keep the switch.

If the only difference between the cases is the prefix string, I would suggest doing something like this instead:

const char *msg; // or std::string if you prefer


    case 1 : msg = "Fader 1 Value : "; break;
    case 2 : msg = "Fader 2 Value : "; break;
    case 10: msg = "Button 1 Value : "; break;
    default: msg = "?"; break;

cout << msg << MidiMessage.get3rdByte() << endl;
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