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I assume it's a quite frequent problem with well-known solutions, which I wasn't able to find. So I'm seeking advice here.

Problem Statement

Consider the following setting:

class A; // some class

const A f(const A&); // an _expensive_ function

void do_stuff()
{
    A a;

    a.modify(...);

    do_stuff1(f(a));  // compute f(a)
    do_stuff2(f(a));  // use cached value of f(a)

    a.modify(...);

    do_stuff3(f(a));  // recompute f(a)
}

I would like the return value of f(a) to be cached between the first and second calls, but to be discarded after the second call to a.modify(). EDIT: In practice, the calls to f(a) will be in different scopes.

Here are the pieces of solutions I've explored, for what it's worth.

Solution 1: Central Cache

Using time stamps

I can imagine a simple solution involving adding a time stamp to class A that function f can check and decide if it needs to update its cached result, stored somewhere in a central cache. I guess this also implies changing the signature of f to:

const A& f(const A&);

Problem 1: with a central cache, we need a mechanism to destroy the cached result of f(a) when a is destroyed.

Using hash codes

Aside from Problem 1, this seems simple enough. But it gets complicated when A stands for std::vector<...>. I guess dynamic polymorphism should be excluded here. So we forget about adding a time stamp to a subclass of std::vector<...> and all the overriding that it would imply. However, we could compute some hash code or UUID based on the contents of a --- assuming that it is much cheaper than computing f(a) --- and base the central cache on these hash codes. But we're facing Problem 1 again.

Solution 2: Coupled Objects

I still haven't found how to implement this, but the idea is to have a notify the cache for f(a) when a is written to or destroyed, but not when it is merely read from. I can't figure how to do that without dynamic polymorphism, and without slowing down single-element accesses using operator[] or iterators by sending notifications to the cache for each modified element.

Problem 2: find a mechanism of delimiting sets of changes to a to invalidate the cache only once for each set of changes.

I've thought of proxies to enable write access on a (inspired by the concept of mutex), but couldn't come up with any working code.

Any ideas?

share|improve this question
    
Can't you store the return value and reuse it ? If you can change f(const A&), then you can pass a temporary object of A as a 2nd parameter and use the same. –  iammilind Jul 1 '11 at 6:27
    
@Munger, you mentioned that A could be anything, even std::vector<...>. Is A anything? Is this theoretical or practical question? What is A exactly? –  Dialecticus Jul 1 '11 at 8:24
    
@Dialecticus: for the problem at hand, it's a std::vector<...>. But I recall facing that problem for other types of objects, so I wrote A to include these cases as well. Perhaps I shouldn't. –  Munger Jul 1 '11 at 12:52
    
Is it much cheaper to compare two vectors than to call the function once? If those two operations cost roughly the same then there's not much room for optimization. –  Dialecticus Jul 1 '11 at 13:59
    
@Dialectus: Yes, it is much cheaper to compare vectors than to call the function. –  Munger Jul 1 '11 at 17:43

4 Answers 4

up vote 2 down vote accepted

I've done similar stuff with interfaces like this:

class F
{
public:
 virtual int f(int a)=0;
};

class Cache : public F
{
public:
   Cache(F &f) : f(f) { }
   int f(int a) { /*caching logic here, calls f.f() if not found from cache */ }
   F &f;
};

class Impl : public F
{
   int f(int a) { /* real implementation here */ }
};

Then it's just deciding where to use the caching logic:

   Impl i; 
   Cache c(i);
   c.f(10); // put to cache with key 10
   c.f(10); // found from cache
   c.f(11); // put to cache with key 11
share|improve this answer
    
I like that. But I still have to solve Problem 1 above. f will be called on many different objects, so it is a bad idea to keep cached values of f(old_a) for all old_a's that have been destroyed. –  Munger Jul 1 '11 at 6:45
    
@munger destroying the cached values can happen in two different ways: either Cache object goes out of scope/gets destroyed/replaced, or you can add a member function to Cache which lets you explicitly remove some cached values or a range of values from the cache. The cache can have any member functions you like, so it's possible to do these things with this design. –  tp1 Jul 1 '11 at 6:51
    
I've managed to do what I need with a similar approach using boost::function, and by calling the cached version where the function is likely to be called more than once, and the uncached version elsewhere. In the cache map, I replaced the vectors, which require a lot of storage, with SHA-1 hash values. –  Munger Jul 5 '11 at 20:28

Can't you just do this:

const A &cacheA = f(a);
do_stuff1(cacheA);  // compute f(a)
do_stuff2(cacheA);  // use cached value of f(a)
share|improve this answer
    
Probably not. The shown code is a conceptual example, and the two calls to f(a) will probably be in completely unrelated parts of the code. –  Roland Illig Jul 1 '11 at 6:34
    
No, the code I've given above is overly simplified. The calls to f(a) actually occur in mutually exclusive scopes. –  Munger Jul 1 '11 at 6:34
    
@Munger: Then you should edit your question and make it more clear that the calls will be in different scopes. –  Nicol Bolas Jul 1 '11 at 6:41

I'm probably missing some important detail here, but can't you just use a LRU cache for this purpose?

share|improve this answer
    
Mainly because I already know the optimal life time of the cached objects, i.e. until destruction of the original objects. Since in the specific application I have in mind, most of them are going to have a really short life time, a LRU cache would be a waste of memory. Good point, though. –  Munger Jul 1 '11 at 12:23

make f a member of A. Then you can decide in the instance of A if you can reuse the cached result or not.

share|improve this answer
    
In the specific application I have in mind, f(a) is just an alternative representation of a. So, for design reasons, what you suggest is the way I'd like to go, and my first idea. This raises two questions: (1) how to subclass std::vector that has no virtual members, and (2) when to set the modified flag of the object. –  Munger Jul 1 '11 at 12:27

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