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I have the following C++ class and methods. I am attempting to accessing the private member "outgoing" from within the const function numOutgoing(). I am confused about the behavior for lines 127-128 vs 129-130.

Line 129: Making a copy, which can be modified later, const function does not care Line 130: Getting a reference, but vec is defined as const, so all good.

Line 127: I assumed a copy is being made, but I get a compiler error Line 128: Same compiler error.

 90 class Graph
 91 {
 92         map<int, vector<int> > outgoing;
 95   public:
 96         Graph(const vector<int> &starts, const vector<int> &ends);
 97         int numOutgoing(const int nodeID) const;
 99 };
121 int
122 Graph::numOutgoing(const int nodeID) const
123 {
124         if (outgoing.find(nodeID) == outgoing.end()) {
125                 throw invalid_argument("Invalid node Id");
126         }
127         // vector<int> vec = outgoing[nodeID];
128         // const vector<int> &vec = outgoing[nodeID];
129         vector<int> vec = outgoing.at(nodeID);
130         // const vector<int> &vec = outgoing.at(nodeID);
132         return vec.size();
133 }

I am trying to understand why Line 127 / 128 gives me the following compilation error:

./templ.cc:128:42: error: passing 'const std::map<int, std::vector<int> >' as 'this' argument of 'std::map<_Key, _Tp, _Compare, _Alloc>::mapped_type& std::map<_Key, _Tp, _Compare, _Alloc>::operator[](const key_type&) [with _Key = int; _Tp = std::vector<int>; _Compare = std::less<int>; _Alloc = std::allocator<std::pair<const int, std::vector<int> > >; std::map<_Key, _Tp, _Compare, _Alloc>::mapped_type = std::vector<int>; std::map<_Key, _Tp, _Compare, _Alloc>::key_type = int]' discards qualifiers [-fpermissive]

Following are the prototypes for operator[] and at methods in the "map" class.

      mapped_type& operator[] (const key_type& k);  <======
      mapped_type& operator[] (key_type&& k);

      mapped_type& at (const key_type& k);
const mapped_type& at (const key_type& k) const;

Would really appreciate it if someone can help me understand the compilation error. Could the issue be that operator[] does not return a const type? If so, then operator[] and at are not equivalent, right?

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up vote 3 down vote accepted

This is because the method

int Graph::numOutgoing(const int nodeID) const

is const, while operator[] is not const. This is because of a design decision: If one tries to access a key that does not exist with operator[], then it creates it, thus modifying the std::map.

To solve your problem, use map<int, vector<int> >::const_iterator result = outgoing.find(nodeID); Then, if it's not at end(), you can simply access the key with result->first and the value with result->second.

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If he can use C++11, the std::map::at() function would work as well, but it with throw if the item is not found, so you would need a try-catch block. – Zac Howland Oct 24 '13 at 17:22

Your problem is that as your numOutgoing function is const, so it can only call const functions on the class members. In this case only const mapped_type& at (const key_type& k) const; is valid.

You could also keep the const_iterator from outgoing.find(nodeID) and dereference that to get const access to your child vector.

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Would really appreciate it if someone can help me understand the compilation error. Could the issue be that "operator[]" does not return a "const" type? If so, then "operator[]" and "at" are not equivalent, right?

Yes, operator[] and at are not equivalent at all.

at will only always return a value therefore it can be const. If no such element exists, an exception of type std::out_of_range is thrown.

operator[] on the other hand will never complain if no elements exists as it will try to create a new one. This behavior is chosen so that:

std::map<int, int> x;
x[0] = 1;

is possible.

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The problem is operator [] which is nonconst. A caller could modify map contents with non-const reference it returns, so this operator is not marked const.

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