The memory and performance issues here are almost entirely separate.
Level-1 Postscript describes only one way to "free" memory: by
restore-ing a previously
save-d memory state. Level-2 (and beyond) Postscript incorporates garbage collection, so memory is available to be freed when there are no accessible references to it. Garbage collection can be disabled to reduce performance overhead (this is necessary for profiling code for speed), but of course your memory consumption is likely to increase unless you're using
The inclusion of garbage collection makes it appropriate to add automatically-expanding dictionaries, and they did. But there's a performance cost: allocating a larger dictionary and rehashing all the keys. So if it's easy to predict the maximum size of a dictionary, you can save some of this time by creating a big-enough dictionary in the first place. You may be able to get a further speed increase by making your dictionaries twice the maximum size, as this should reduce hash collisions.
And performance is adversely affected by having extra dictionaries on the dictstack (if you don't need them). Since systemdict (where all the operators are) is always the bottom entry on the stack, all lookups for operator-names will search (unsuccessfully) each dictionary that's in the way before reaching systemdict.
The increase in the memory-size and processing-power of desktop computer makes these concerns somewhat less necessary (since you can ignore them and still have a program that "works"), but they are still useful (especially as your programs become larger and more complex).
A very good resource for this kind of info is Adobe's "green book" which is devoted to strategies of organizing your programs for size or speed (sometimes both).
I just had a crazy idea. There may be a way to get both! Suppose you pack your dictionary exactly to capacity (to use minimal memory), then in a critical section add one more element (forcing the dict to expand), but bracket the section with
4 dict begin
/x 5 def
/y 7 def
/z 9 def
/t 12 def
begin /save save def
%Do something critical
save end restore
Of course this discards any updates to the dict, so if you need these updated entries, you'll have to make a copy to expand (after the save, so restore will destroy it), and copy the desired entries back into the original. And of course this is quite a bit of extra overhead; so the code that needs this trick will have to be damned critical. :)