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I have certain code that I want to optimize. It looks like this:

function abc( string format ) {
  if (format == "a") { // this is a string, I shouldn't have used single quote, sorry for the confusion
    classx::a t;
    doit(t);
  }
  if (format == "b"){
    classx::b t;
    doit(t);
  }
  if (format == "c"){
    classx::c t;
    doit(t) 
  }
  if (format == "d"){
    classx::d t; 
    doit(t);
  }
}

Currently there is many doit() function with different type

function doit( classx:a ) {
   different code for a
}

function doit( classx:b ) {
   different code for b
}

...etc

As you can see, a lot of code is replicated. However I can't figure out how to reduce the words. Note that : doit(x) has overloaded by different type. a,b,c,d class is derived from a class named "X".

I may create a pointer type classx::X :

classx::X *t;
if (format == "a") t = new classx::a
if (format == "b") t = new classx::b
if (format == "c") t = new classx::c
if (format == "d") t = new classx::d
doit(*t)

but then still need to write a doit() for type classx::X with a bunch of "if then" and cast to the correct type... as C++ can't auto-detect and cast to correct type.

I wonder if there is a faster/smarter way to do this. Thanks in advance.

share|improve this question
    
I read your question more carefully, so now I'm wondering if you mean overridden instead of overloaded. Could you please confirm? –  Steven Sudit Aug 6 '10 at 4:50
    
how many of this conditions do you have? if you are only have four, you approach perfectly fine in my opinion. you can use boost preprocessor to automate boilerplate as well –  Anycorn Aug 6 '10 at 4:54
    
Is really this C++ or just pseudocode? –  AraK Aug 6 '10 at 4:56
1  
This question seems substantially similar to How to idiomatically call C++ functions based on variable value? If I understand this question correctly, you could use several of the techniques recommended in answers to that question, potentially with the use of a factory function. –  James McNellis Aug 6 '10 at 4:58
    
@Steven: I think It's overloaded as only the type of argument is different. @ArK: pseudo... It's not my actual code, I just copy the form. @aaa: I am planing to add more than 4 :). @James: Thanks.. I will look into that –  w00d Aug 6 '10 at 5:04

6 Answers 6

up vote 3 down vote accepted

One possible approach that reduces the repetition to adding new entries to a function map:

template<class T> void innerAbc() {
    T t;
    doit(t);
}

typedef std::map<std::string, void (*)()> FuncMap;

FuncMap initHandlers() {
    FuncMap m;
    m["a"] = &innerAbc<classx::a>;
    // ... extend here
    return m;
}   

void abc(const std::string& format) {
    static const FuncMap handlers = initHandlers();
    FuncMap::const_iterator it = handlers.find(format);
    if (it != handlers.end()) 
        it->second();
}
share|improve this answer
    
Using function pointers instead of predicates is very smart here, since you don't have to worry about memory management! Also, with the advent of lambda functions, it should become easier and easier (if the function was a tad more complicated). –  Matthieu M. Aug 6 '10 at 14:15
    
My concern here is that you've reinvented the vtable. –  Steven Sudit Aug 6 '10 at 15:51
    
@Steven: This doesn't replace a vtable, the overloads for doit() might go there. But then it was already suggested that it might work better as a virtual member function. –  Georg Fritzsche Aug 6 '10 at 16:05
    
My point here is that anything that maps a type to a method looks suspiciously like a vtable already, so your solution is in some ways reimplementing what is already available. On the other hand, a factory driven by map is doing some a vtable cannot do. –  Steven Sudit Aug 6 '10 at 16:17
    
@Steven: It maps to a static type, which a factory or similar would have to do anyway before you could act on some derived class it created. If however we already have the static type, virtual functions don't even need to come into play - wether doit() is a member function or not. –  Georg Fritzsche Aug 6 '10 at 16:41

Put the format/constructor pairs into a dictionary. The key is that format string, the value is a function pointer to a static factory method that is essentially just a thin wrapper over the constructor. Besides being easier to maintain, it'll do a hash lookup or binary search, depending on the sort of dictionary/map you use.

share|improve this answer
    
While that would accomplish what he's asking to do, it introduces complexity where there need not be any. –  Nick Strupat Aug 6 '10 at 4:44
    
Putting aside your strategic downvote, the reason this is a better idea is that it scales nicely and is very clean. Each class can register itself with the factory during start-up, and this can be entirely dynamic. It's a best practice. –  Steven Sudit Aug 6 '10 at 5:13
1  
Self-registration doesn't scale, because it doesn't play well with libraries. The linker does not arrange to call all global (static) constructors in a library, only those in the same compilation unit as code that is directly referenced. –  Ben Voigt Aug 6 '10 at 5:28
    
@Ben: That's a good point, but there are various ways around that. The very worst case is that each classes RegisterMySelf function has to be called at some point prior to the factory being used, which is still better than having a single block of code that has all the children hardcoded. –  Steven Sudit Aug 6 '10 at 5:52
    
Sorry I can't get the idea. Could you give me a sample code ? what is the return of the "function pointer to a static factory" –  w00d Aug 6 '10 at 6:09

It will be faster if you use else if after the first if so that it doesn't keep testing after finding a match. This is more compact and simpler to read as well...

function abc(string format) {
    if (format == 'a')
        doit(classx::a());
    else if (format == 'b')
        doit(classx::b());
    else if (format == 'c')
        doit(classx::c())
    else if (format == 'd')
        doit(classx::d());
}
share|improve this answer
1  
Thanks for the strategic downvote, but your solution is actually a step in the wrong direction. If they were to do this entirely without a data structure, the right answer would be switch/case. Not only does it avoid unnecessary tests after finding the match, but some compilers do a good job optimizing it further with lookup tables and even perfect hashes. Having explained why your answer is bad, I see no reason add injury by downvoting you. –  Steven Sudit Aug 6 '10 at 4:48
    
I changed the list of if statements to use else if to avoid exactly that. A good optimizing compiler would have optimized that anyway, just saying. –  Nick Strupat Aug 6 '10 at 4:51
    
Also a switch statement would only work if the parameter were a char and not a string. –  Nick Strupat Aug 6 '10 at 5:02
2  
just to clarify... I intentionally put it as string because in my actual code the format is more complex and can't use switch –  w00d Aug 6 '10 at 5:47
1  
Don't forget that if you know a significant amount about your domain AND if it has a big variation in the frequency of cases, a sensible ordering of if else if can be more efficient than switch. However, I agree that in most situations using a char value in a switch would be preferable. –  Andy Dent Aug 7 '10 at 4:14

A simple template approach gets rid of much of the duplicated code. If you want to avoid having a series of 'if' statements, you can use a map, or a sorted vector with binary search.

template<typename T> void forward_doit()
{
    T t;
    doit(t);
}

void func(string const& s)
{
    if (s == "a") return forward_doit<Classx::a>();
    if (s == "b") return forward_doit<Classx::b>();
    if (s == "c") return forward_doit<Classx::c>();
    // ...
}
share|improve this answer
    
This is a good way to shorten the amount of code, but it doesn't solve the deeper problems. Namely, this is still a linear search for the right type, and it requires func to know about all children of the base. Not maintainable. –  Steven Sudit Aug 6 '10 at 13:42
    
@Steven: Whether not it is maintainable depends on factors not stated in the question. We don't know whether a linear search is worse or better because we don't know how many items there are and whether some are called more often that others. While func() needs to know about all the implementation types, the mapping between the key and the type must be somewhere and we don't know where is appropriate in this case. The point of my answer is to describe how to avoid the duplicated code; I think the simplicity of a single line per case is a good start. Why add complexity unless necessary? –  janm Aug 7 '10 at 5:33
    
If only it weren't necessary! You have some point regarding linear probably being fast enough for a small number, but where I cannot agree is the idea that a naturally expandable system -- subclassing -- should be limited by having a single function that needs to know about all subclasses. A dictionary-based approach is not only faster for lookups when the number of subclasses increases, it also allows the addition of entries from multiple locations at different times. This is a big deal and I'd argue that it's worth a little bit of complexity. –  Steven Sudit Aug 7 '10 at 14:53
    
@Steven: It is only worth paying the complexity price if you get something out of it. I agree that in many cases a dictionary based approach is good, but I don't know that this is one of those cases. As I said, use a map or sorted vector if appropriate. As for where the addition entries occurs, consider that func() might implement a comms protocol and dispatch on a protocol element, and call doit() when appropriate. The classes called have no knowledge of the protocol and should not have that knowledge, and so could not self register. –  janm Aug 8 '10 at 2:20
    
@janm: What you get out of it is flexibility in precisely the area that needs it. Whether subclasses self-register or are registered by other code, a dictionary approach means there doesn't have to be a single point of omniscience. –  Steven Sudit Aug 8 '10 at 3:31

Here's an approach using macros that assumes that format is really a string. The single quotes you are using in the original (Javascript?) code are for characters.

I can't work out anything remotely as compact using templates, yes, sometimes macros are still useful!

#define FORMATTER(ltr) \
    if (format == #ltr) { \
    classx::##ltr t; \
    doit(t); \
  }

#define ELSEFORMATTER(ltr) else FORMATTER(ltr)

void abc( std::string format ) {
    FORMATTER(a)
    ELSEFORMATTER(b)
    ELSEFORMATTER(c)
    ELSEFORMATTER(d)
}
share|improve this answer
    
are you sure that is correctly to generate single quotes? –  Anycorn Aug 6 '10 at 5:23
    
how about double quotes ? –  w00d Aug 6 '10 at 6:14
    
I have the same reservations about this as I do about templates, plus additional ones from the obscuring effect of the precompiler. –  Steven Sudit Aug 6 '10 at 13:45

using boost preprocessor

#define MACRO(r, data, elem)                     \
if (format == '(elem)')  doit(classx::(elem)()); \
else

BOOST_PP_SEQ_FOR_EACH(MACRO, _, (a)(b)...) {
... // else condition
}

I am not sure how to put macro inside '' however: http://stackoverflow.com/questions/2072532/how-to-single-quote-an-argument-in-a-macro

share|improve this answer
    
I have the same reservations about this as I do about templates, plus additional ones from the obscuring effect of the precompiler. –  Steven Sudit Aug 6 '10 at 15:48

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