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Consider a std::map<const char *, MyClass*>.

How do I access a member (variable or function) of the MyClass object pointed to by the map?

// assume MyClass has a string var 'fred' and a method 'ethel'
std::map<const char*, MyClass*> MyMap;

MyMap[ "A" ] = new MyClass;
MyMap.find( "A" )->fred = "I'm a Mertz";  // <--- fails on compile
MyMap.find( "A" )->second->fred = "I'm a Mertz";  // <--- also fails

EDIT -- per Xeo's suggestion

I posted dummy code. Here is the real code.

// VarInfo is meta-data describing various variables, type, case, etc.
std::map<std::string,VarInfo*> g_VarMap; // this is a global 

int main( void )
   // ........ g_VarMap["systemName"] = new VarInfo; 
   g_VarMap.find( "systemName" ).second->setCase( VarInfo::MIXED, VarInfo::IGNORE ); 
   // ..... 

errors were:

struct std::_Rb_tree_iterator<std::pair<const std::basic_string<char, std::char_traits<char>, std::allocator<char> >, VarInfo*> >’ has no member named ‘second’
Field 'second' could not be resolved Semantic Error make: *** [src/ACT_iod.o] Error 1 C/C++ Problem
Method 'setCase' could not be resolved Semantic Error – 
share|improve this question
char const* is a very bad key type. You'll only ever access the same value if you pass the exact same string. And I don't mean a literal string like "A", which can have different pointer addresses even for the same content. – Xeo Jun 29 '12 at 14:26
std::string is the correct choice here. Also, what are the exact compiler errors? – Xeo Jun 29 '12 at 14:28
The second version should compile just fine: ideone.com/jD0MW – Grizzly Jun 29 '12 at 14:32
You wrote the correct code in the question (map.find(key)->second->member), but reading your last comment, it seems you actually wrote map.find(key).second->member in your code. Please provide the actual code you use. – Xeo Jun 29 '12 at 14:37
I recommend editing that into your question. :) – Xeo Jun 29 '12 at 14:47
up vote 8 down vote accepted

std::map stores types internally as a std::pair, and std::map::find, returns an iterator. So, to access members of your class, you have to go through the iterator, which presents the key_type as first, and the value_type as second. Also, as others have stated, you should probably not be using const char* as your key_type. Here's a short example.

#include <string>
#include <map>
#include <iostream>

struct T
   T(int x, int y) : x_(x), y_(y)

   int x_, y_;

int main()
   typedef std::map<std::string, T> map_type;
   map_type m;

   m.insert(std::make_pair("0:0", T(0,0)));
   m.insert(std::make_pair("0:1", T(0,1)));
   m.insert(std::make_pair("1:1", T(1,1)));

   // find the desired item (returns an iterator to the item
   // or end() if the item doesn't exist.
   map_type::const_iterator t_0_1 = m.find("0:1");

   if(m.end() != t_0_1)
      // access via the iterator (a std::pair) with 
      // key stored in first, and your contained type
      // stored in second.
      std::cout << t_0_1->second.x_ << ':' << t_0_1->second.y_ << '\n';

   return 0;
share|improve this answer
Much love for the downvote(s). Care to explain? Did I get something incorrect in your eyes? – Chad Jun 29 '12 at 14:37
Maybe I am hopelessly out of date, but I like your coding style. I had never seen identifiers like x_ and y_ used systematically as you have done. (I have seen _x and _y, but don't care for that style, since such identifiers look like internal implementation symbols.) I may adopt the practice. – thb Jun 29 '12 at 14:39
@thb: A trailing underscore is actually pretty common for member variables (I personally prefer a leading one). – Xeo Jun 29 '12 at 14:41
I believe I was introduced to it in Scott Meyers excellent book, Effective C++. – Chad Jun 29 '12 at 14:41
FWIW, I like the m_, which I use for public members, and p_ for private one. As a visually impaired person, a leading '' often disappears into the noise (commas, braces, brackets...), while m seems to not. Don't quite know why. I do like to separate stuff with spaces to make seeing individual items easier and I'll bet I WANT to see the '_' as a space. – Wes Miller Jun 29 '12 at 15:14

It fails because std::map<T, Y>::find() returns an iterator, not a reference to an MyMap object. The correct code would be:

map<const char*, MyClass*>::iterator a;
a = MyMap.find("A");
// a->fred; this is wrong too
a->second->fred = "Whatever";
share|improve this answer
"returns an iterator, not a reference to an iterator" -- makes no sense. Did you mean "a reference to a pair"? – Xeo Jun 29 '12 at 15:00

The most obvious method is


, but

MyMap.find( key )->second->fred

should also work. In both cases, you must ensure that the key is present before using it. In the code you've written, it (usually) won't be, since you're using the address of a specific instance of a string literal as key; a compiler is allowed to merge instances with the same value, but is not required to.

share|improve this answer
No, in the MyMap[key] version, the key is not required to be present already. – Xeo Jun 29 '12 at 14:33
Yes, because MyMap[key] will insert a null pointer if the key isn't already present; dereferencing the null pointer is undefined behavior, and once the map starts containing null pointers, you have to make an additional check every time you extract something from the map. – James Kanze Jun 29 '12 at 17:36
Argh, true, I misregarded the pointer value type. – Xeo Jun 29 '12 at 18:37

The problem is that an iterator is a pointer type, not a reference type, so iter.second will fail to compile.

Instead, you must use the pointer syntax: iter->second (arrow instead of dot).

Consider this short example:

#include <iostream>
#include <map>

int main()
   std::map<int, std::string> myMap;

   std::map<int, std::string>::iterator it;
   std::map<int, std::string>::iterator end = myMap.end();

   myMap.insert(std::pair<int, std::string>(0, "hello"));
   myMap.insert(std::pair<int, std::string>(1, "world"));

   for(it = myMap.begin(); it != end; ++it)
      // std::cout << "Value: " << it.second << "\n";
      // The previous line will fail to compile with error:
      //    ‘struct std::_Rb_tree_iterator<std::pair<const int,
      //    std::basic_string<char, std::char_traits<char>,
      //    std::allocator<char> > > >’ has no member named ‘second’

      // The following line is correct
      std::cout << "Value: " << it->second << "\n";
share|improve this answer

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