I want to have a certain kind of std::vector
that cannot have more than const int MAX_LENGTH
elements. I understand that I cannot override std::vector
non-virtual functions, which I'd need to do to put a size check in all the relevant member functions (e.g., assign
, push_back
...there are so many). The most obvious way to do this is to wrap std::vector
in a class
that ensures no operation adds beyond the maximum length. But this seems clunky. Is there a more elegant solution than a wrapper class to limit std::vector size?
3 Answers
Are you sure that the vector itself can't grow, or that merely the consumers of such a vector need to limit the size of the arguments? If it's the latter, then simply assert(arg.size() <= MAX_LENGTH)
where needed, document it, and be done. Otherwise, read on.
A std::vector
can have unlimited size. If you limit that size, it's not a std::vector
anymore. So, you cannot publicly derive from std::vector
and limit the size without breaking the Liskov Substitution Principle. The derived class is still a vector, but doesn't act as one, and can't be used as one, and such an interface will thoroughly confuse your users, and the compiler will not catch serious usage bugs that will ensue. It's a bad idea.
The best you can do is to privately derive from vector, or have-a vector as a member, and expose all of the vector's interfaces while enforcing the size. Such a vector must not be convertible to std::vector
, although obviously you can allow it to be copied or moved to a std::vector
. It'll still perform just as well as a vector would, will still allow access via iterators, etc.
We're talking of a very small class, and its implementation simply has to follow the standard (or at least the cpp reference), you're leaving all the real work to the private std::vector
. So that's not clunky, that's the only sane way to do it.
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I take your point. I like this idea of assert(arg.size() <=MAX_LENGTH) but where would this go if not in a custom wrapper class? I can't force clients to put them in front of every call, so is there a way to automatically do so?– helloBJul 31, 2015 at 16:36
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you wouldn't use an assert if you wanted to raise a specific exception, you would use it to crash your program because you have made a mistake Jul 31, 2015 at 16:38
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@helloB The clients definitely can put them in if they truly can't accept a vector too large. That's what asserts are for. Otherwise, it'd seem you're making up a problem. The vector doesn't care about its size, now the clients don't care either, so why the question? If the clients care, they have to check or only accept a limited-size vector class, not
std::vector
. If the clients don't care, why do you? Jul 31, 2015 at 16:48 -
1
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It's a client problem then. There are ways of dealing it at the client end that can be enforced through the api, but that doesn't imply a non-growing
std::vector
, just a convertible wrapper that checks the size when it's constructed. Jul 31, 2015 at 17:53
Since C++11, custom allocators are permitted to have state (previous to C++11, custom allocators had to be stateless). Each C++ container that takes a custom allocator stores an instance of it.
Your allocator can then detect whether or not it has already fulfilled a request for the maximum allotment, and throw otherwise.
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This only works if I have an individual allocator instance for each vector no? Or I'd have to have quite a lot of state recorded in the allocator, tracking each vector it had allocated.– helloBJul 31, 2015 at 16:44
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@helloB: Yes. Each vector has its own instance of the allocator (second sentence of first paragraph).– jxhJul 31, 2015 at 16:45
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That's not necessarily the case. I have seen allocators shared among containers.– helloBJul 31, 2015 at 16:53
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@helloB: Use allocate traits to control what happens with the allocator when the container gets copied. See: en.cppreference.com/w/cpp/memory/allocator– jxhJul 31, 2015 at 16:56
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1Even if
MAX_LENGTH
is a constant, the first time that the vector tries to allocateMAX_LENGTH
or more will typically be at a point where the size of the vector is some factor smaller thanMAX_LENGTH
, because vectors over-allocate in order to have amortized constant-time append. Thowing here would be over-zealous, it would limit the vector to less than the specified max size. By the second over-size allocation, the vector has grown to its capacity, which typically is more thanMAX_LENGTH
. So I don't think this works, but maybe I've missed the point. Jul 31, 2015 at 17:16
#include <vector>
#include <string>
using namespace std;
template <typename T, typename A>
void add_or_throw(std::vector<T,A> &vec, int max, T value)
{
if (vec.size() < max)
{
vec.push_back(value);
}else{
throw length_error("vecor too beaucoup");
}
}
int main() {
std::vector<std::string> v;
add_or_throw(v, 2, string("hi"));
add_or_throw(v, 2, string("there"));
add_or_throw(v, 2, string("man!"));
return 0;
}
push_back
(or equiv) do? Throw an exception? Silently discard that element? Add that element at the expense of the first element (FIFO queue kind of behavior)?c++11
the header<array>
was added, which defines a containerstd::array<class T, size_t N>
with the exact functionality ofstd::vector
, only you specify its exact length using the template parameterN
. If the max size you want isn't very large then the fact that you always allocate max memory space doesn't hurt too much. If you want to still keep track of how much you've actually used, then unless yourT
has aNULL
version, this won't be of much use.