Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

This is my first time making a hash table. I'm trying to associate strings (the keys) with pointers to objects (the data) of class Strain.

// Simulation.h
#include <ext/hash_map>
using namespace __gnu_cxx;

struct eqstr
 bool operator()(const char * s1, const char * s2) const
   return strcmp(s1, s2) == 0;

hash_map< const char *, Strain *, hash< const char * >, struct eqstr > liveStrainTable;

In the Simulation.cpp file, I attempt to initialize the table:

string MRCA;
for ( int b = 0; b < SEQ_LENGTH; b++ ) {
  int randBase = rgen.uniform(0,NUM_BASES); 
  MRCA.push_back( BASES[ randBase ] );
Strain * firstStrainPtr;
firstStrainPtr = new Strain( idCtr, MRCA, NUM_STEPS );
liveStrainTable[ MRCA ]= firstStrainPtr;

I get an error message that reads "no match for ‘operator[]’ in ‘((Simulation*)this)->Simulation::liveStrainTable[MRCA]’." I've also tried using "liveStrainTable.insert(...)" in different ways, to no avail.

Would really love some help on this. I'm having a difficult time understanding the syntax appropriate for SGI hash_map, and the SGI reference barely clarifies anything for me. Thanks.

share|improve this question

5 Answers 5

up vote 2 down vote accepted

Try liveStrainTable[ MRCA.c_str() ]= firstStrainPtr;. It expects const char * as type of key value, but MRCA has type string.

Another way is to change liveStrainTable to:

hash_map< string, Strain *, hash<string>, eqstr > liveStrainTable;
share|improve this answer

Others answered your direct question, but may I suggest using unordered_map instead - it's coming with the next version of the STL and is supported by all major compilers.

share|improve this answer
What advantage does that have? – Paul Nathan Oct 30 '09 at 15:46
Not using namespace with two leading underscores :) – Nikolai N Fetissov Oct 30 '09 at 16:19

The hash_map is defined with const char * as the key type and you are using an std::string as the key when accessing. These are 2 different types, the template did not build an operator for the second type, so this is an error. Use std::string for the hashmap definition or use MRCA.c_str()

share|improve this answer

Right now, you have a type mis-match. You're passing MRCA (a string) where a char const * is expected. You can either use c_str() to get a char const * from the string, or (far better) change the definition of your hash table to take a string as its key type.

share|improve this answer

hash_map is not part of STL. There's no implementation provided for hash, or in other words, the hash_map can't hash strings by default. You need your own hash function. T


typedef struct {
  size_t operator()( const string& str ) const {
     return __gnu_cxx::__stl_hash_string( str.c_str() );
} strhash;

hash_map< string, Strain *, strhash, eqstr > liveStrainTable;
share|improve this answer
AWESOME! Thank you. The "liveStrain[MRCA]=firstStrainPtr;" appears to work--I will start writing all the other operations now. I can't wait until hash_map/unordered_map is part of STL and can handle strings. – Sarah Oct 30 '09 at 16:35
"I can't wait until hash_map/unordered_map is part of STL" Actually it is to become part of the standard library. Most (but not all) of the STL became a part of the std lib at the end of the 90ies. There's many other parts of the std lib, though (strings, streams...), so "STL" is not a synonym for "standard library". – sbi Oct 30 '09 at 19:25
Also, it's actually quite probable that your std lib already provides unordered_map in the namespace std::tr1. TR1 (Technical Report 1) lists quite a few libraries that were supposed to become part of the next standard and encouraged vendors to provide them. It was widely adopted. If your std lib doesn't have it, there's an implementation among the boost libraries at – sbi Oct 30 '09 at 19:27

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.