> At the risk of lapsing completely into pattern vocabulary ... an > AbstractFactory would create Ints and bind them to a subsequently hidden > implementation. When the int involved was tiny (-1 to 256?) this > AbstractFactory would use one of the pre-allocated, shared (see FlyWeight) > implementations. Outside of this range distinct Short, Long or DamnHuge > implementations would be created. Or, since we're talking implementation, we could use the following hack, which I borrowed from Standard ML of New Jersey: There is just one type, namely int. An int is a 31-bit integer, INCLUDING sign. One extra bit indicates whether the integer is really a number or, alternatively, a pointer to the rest of the representation. Now, you may object that implementing this strategy in C will require lots of shifting and masking. I would have thought so, too. However, every C implementation of which I am aware puts all but the most trivial data structures on boundaries of two or more bytes. This fact frees the LOW-order bit of the integer to indicate whether it is a pointer. So here's the strategy: If the low-order bit of an integer is *off*, it's really a pointer to the rest of the implementation. If the low-order bit is *on*, then it represents an integral value that can be obtained by doing a one-bit arithmetic right shift. Yes, it's sleazy. But I imagine it would be much faster than using inheritance.
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