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Using array as map value: Cant see the error

Assume I have the following data structure:

std::map<size_t, double[2] > trace;

how can I access its elements with the operator[]?

Essentially I want to do something like:

trace[0][0] = 10.0;
trace[0][1] = 11.0;

In compiling these lines of code I get the following error:

/usr/include/c++/4.6/bits/stl_map.h:453:11: error: conversion from ‘int’ to non-scalar type ‘std::map<long unsigned int, double [2]>::mapped_type {aka double [2]}’ requested


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marked as duplicate by ecatmur, iammilind, WhozCraig, stealthyninja, mmmshuddup Nov 24 '12 at 9:39

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

std::map<size_t, double[2] > is that legal? I didn't think you could use arrays in the STL like that. –  john Nov 23 '12 at 10:56
this post might help you stackoverflow.com/questions/2582529/… –  denizeren Nov 23 '12 at 10:57
consider using std::map<int, std::array<double, 2>> instead (if you have that possibility, else std::map<int, boost::array<double, 2> > –  Nim Nov 23 '12 at 10:59
this is not legal. A c-style array is not copy constructable and therefore can't be used in as a map value. What compiler are you using? gcc barks about ISO C++ forbids casting to an array type double[2] –  user1773602 Nov 23 '12 at 11:01
@ybungalobill: But I think they are default-constructible, which is all that's required of them here. They'd only need to be copy- or move-constructible if you wanted to use insert. –  Mike Seymour Nov 23 '12 at 11:04

3 Answers 3

up vote 5 down vote accepted

Value types for maps must be default-constructible, using an expression value_type(), in order to access them via []. For some mysterious reason, array types are not, as specified in C++11 5.3.2/2 (with my emphasis):

The expression T(), where T is a simple-type-specifier or typename-specifier for a non-array complete object type ... creates a prvalue of the specified type,which is value-initialized

The compiler gives that strange error when trying to value-initialise an array; the following gives the same error:

typedef double array[2];

I suggest using a class type rather than double[2]: std::array<double,2>, std::pair<double,double>, or a struct containing two doubles. Such types are copyable, don't decay into a pointer (losing compile-time knowledge of the size) at the drop of a hat, and are generally easier to deal than a built-in array type.

If you're stuck with an old library that doesn't provide std::array, then you could use the very similar Boost.Array, or write your own simple class template to wrap an array.

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You can wrap an array:

template<typename T, unsigned int n>
struct ArrayWrapper
    T v[n];
    T& operator[](unsigned int i) { return v[i]; } // You can also check for out-of-bounds errors
    const T& operator[](unsigned int i) const { return v[i]; } // You can also check for out-of-bounds errors
#include <map>
#include <iostream>
int main()
    typedef std::map<size_t, ArrayWrapper<double,2> > Map;
    Map trace;
    trace[1][0] = 42;
    for(Map::const_iterator it = trace.begin(); it != trace.end(); ++it)
        std::cout << "( " << (*it).first
            << ", " << (*it).second[0]
            << ", " << (*it).second[1]
            << ")\n";

Live example. Else, if you have C++11, you should use std::array; if not, and you have Boost, you can use Boost.Array.

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Your code compiles till:

std::map<size_t, double[2]> trace;

because double[2] is a valid type. You can declare a template class object with any valid type. For example:

template<typename T>
struct X {
  // T t; // this will complain for sure
  void foo () { T t; } // this won't complain unless invoked !!
X<void> x;

will compile without any problem.
If you call x.foo(), the compiler will complain about it.

Same thing is happening in case of std::map. When you invoke functions like map::insert(), map::operator [] where the value-type double[2] is actually going to be used, the compiler will start complaining as double[2] is not copyable (exception: I have seen an old g++3.x version where arrays were assignable and copyable).

You can encapsulate your array into a structure.

struct D { double d[2]; };

If you want to avoid using raw array then std::array is good option as mentioned in comments and other answer.

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