Say that I have a C++ class,
Container, that contains some elements of type
Element. For various reasons, it is inefficient, undesirable, unnecessary, impractical, and/or impossible (1) to modify or replace the contents after construction. Something along the lines of
const std::list<const Element> (2).
Container can meet many requirements of the STL's "container" and "sequence" concepts. It can provide the various types like
reference, etc. It can provide a default constructor, a copy constructor, a
empty, all the comparison operators, and maybe some of
Container can't provide
operator, or non-const
at with the expected semantics. So it appears that
Container can't qualify as a "sequence". Further,
Container can't provide
swap, and it can't provide an
iterator type that points to a non-const element. So, it can't even qualify as a "container".
Is there some less-capable STL concept that
Container meets? Is there a "read-only container" or an "immutable container"?
Container doesn't meet any defined level of conformance, is there value in partial conformance? Is is misleading to make it look like a "container", when it doesn't qualify? Is there a concise, unambiguous way that I can document the conformance so that I don't have to explicitly document the conforming semantics? And similarly, a way to document it so that future users know they can take advantage of read-only generic code, but don't expect mutating algorithms to work?
What do I get if I relax the problem so
Container is Assignable (but its elements are not)? At that point,
swap are possible, but dereferencing
iterator still returns a
const Element. Does
Container now qualify as a "container"?
const std::list<T> has approximately the same interface as
Container. Does that mean it is neither a "container" nor a "sequence"?
Footnote (1) I have use cases that cover this whole spectrum. I have a would-be-container class that adapts some read-only data, so it has to be immutable. I have a would-be-container that generates its own contents as needed, so it's mutable but you can't replace elements the way the STL requires. I yet have another would-be-container that stores its elements in a way that would make
insert() so slow that it would never be useful. And finally, I have a string that stores text in UTF-8 while exposing a code-point oriented interface; a mutable implementation is possible but completely unnecessary.
Footnote (2) This is just for illustration. I'm pretty sure
std::list requires an assignable element type.