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I'm reading:

The standard C++ Library: A Tutorial and Reference by Nicolai M. Jossuttis

It's my go-to book when I'm going to use some STL mechanisms in any significant manner. Anyway, I was quickly rereading the chapters on std::map and related algorithms and I noticed a sentence I hadn't thought about before:

Non-constant maps provide a subscript operator for direct element access. However, the index of the subscript operator is not the integral position of the element. ... etc.

Why can only non-constant maps be used in an associative array like manner? It seems that it would be fairly simple to provide read-only semantics in this case. I suppose exceptions would be possible if you tried to retrieve an element with a key that didn't exist (sine you can't add a new key/value to the map if its constant).

I'd like to understand the reasoning behind this if anyone can shed some light :) thanks!

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How would you expect map["foo"] to work on a const instance of std::map if there is no matching element ? It cannot create it since the map is const and throwing an expection would differ from the non-const behavior which could be dangerous. –  ereOn Nov 29 '11 at 18:26

5 Answers 5

up vote 11 down vote accepted

Why can only non-constant maps be used in an associative array like manner?

Because those operators return a reference to the object that is associated with a particular key. If the container does not already contain such an object, operator[] inserts the default object. Now, if container is constant, you cannot insert any objects into it, and you cannot return a reference to non-existing objects, that's why these operators are available for non-constant containers only.

Throwing an exception in that case is possible, of course, but is not the best way to approach a pretty general cases when object for a given key doesn't exist. Basically, exceptions are extremely expensive and are for exceptional situations, and the above one is not, so it is not worth it.

The better way would be to return an iterator, but then user would have to check if it is not "end", which will make the use case similar to calling find (), so useless. Returning iterators or pointers for constant-only containers is also possible, but that breaks semantics a bit and is confusing.

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In C++11 you can use at() to get that "get mapped value, else throw exception" behavior. Overloading operator[] to do two different things (i.e. either insert new pair or throw) depending on whether a map is constant would be too confusing and error-prone.

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[] operator modifies the map, if the key doesn't exist.

If the key doesn't exist, the map creates a new entry with the key, and a default value for the associated value, and return its reference. For this to happen, operator[] has to be non-const function, which means it cannot operate on const instance of std::map.

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The []-operator mutates the container: If the key doesn't exist, it will be created:

return m[1];      // **creates** m[1] if it doesn't exist

return *m.find(1) // UB if m[1] doesn't exist (dereferencing m.end())

Furthermore, [] always returns a non-constant reference, so you can say m[1] = 2;. On the other hand, find() returns an iterator whose constness is that of the map itself:

map_t m;
*m.find(1) = 2;    // Only OK if m[1] exists
// *const_cast<map_t const &>(m).find(1) = 2;  // error
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First, as in doublep's answer, if you want a possible exception for missing keys use at(). The purpose of operator[] is to provide access to possibly-missing keys, no exceptions (apart from the totally unavoidable ones, out-of-memory or thrown from constructors of the key/value types), no fuss :-)

So why can't we still provide read-only semantics? The basic problem is what happens when you do this:

std::map<int,int> foo;
foo[0] = 0;    // fine
const std::map<int,int> &bar = foo;

Now, we can imagine that bar[1] might be defined return a reference to some special 0 object that's tucked away somewhere up std::map's sleeve. That would be enough to "read" the correct value, right? But no, that doesn't work, because we should be able to do this:

const int &element = bar[1];
foo[1] = 1;
std::cout << element << "\n"; // should print 1

Therefore, operator[] const really would have to be able to modify the container in order distinguish it from what at() does. operator[] really has to create elements of the map for keys that don't already exist. We can't provide read-only semantics for the const version. So we can't allow it.

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