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The keys are binary garbage and I only defined them as chars because I need a 1-byte array.
They may contain null bytes.

Now problem is, when I have a two keys: ab(0)a and ab(0)b ((0) being a null byte), the map treats them as strings, considers them equal and I don't get two unique map entries.

What's the best way to solve this?

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char[5] is a nonsensical key type for std::map<>. Why are you avoiding std::string/std::vector<char>/std::array<char, 5>? –  ildjarn May 24 '11 at 21:51
How do you declare the map? How do you insert data into it? –  Robᵩ May 24 '11 at 21:51
Why do you declare a 5-byte key when you only need a 1-byte array? –  Robᵩ May 24 '11 at 21:52
@ildjarn: std::string because it ends on null bytes, std:vector because I didn't try it yet, and std:array because it worked like std::string. @Rob: I meant an array of terms 1-byte each. –  George Stephanos May 24 '11 at 23:10
@GeorgeStephanos : I'm not sure what you mean by "ends on null bytes" -- std::string fully supports embedded null characters, as do std::vector<> and std::array<>... –  ildjarn May 24 '11 at 23:12

4 Answers 4

up vote 2 down vote accepted

Why not use std::string as key:

//must use this as:
std::string key1("ab\0a",4); 
std::string key2("ab\0b",4); 
std::string key3("a\0b\0b",5); 
std::string key4("a\0\0b\0b",6); 

Second argument should denote the size of the c-string. All of the above use this constructor:

string ( const char * s, size_t n );

description of which is this:

Content is initialized to a copy of the string formed by the first n characters in the array of characters pointed by s.

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Use std::array<char,5> or maybe even better (if you want really to handle keys as binary values) std::bitset

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I forgot to say I had already tried std::array and it worked just like char* and std::string. As for a std::bitset, I couldn't figure out how to write it to a file as raw data (I need that). –  George Stephanos May 24 '11 at 23:11

If you really want to use char[5] as your key, consider writing your own comparison class to compare between keys correctly. The map class requires one of these in order to organize its contents. By default, it is using a version that doesn't work with your key.

Here's a page on the map class that shows the parameters for map. You'd want to write your own Compare class to replace less<Key> which is the third template parameter to map.

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If you only need to distinguish them and don't rely on a lexicographical ordering you could treat each key as uint64_t. This has the advantage, that you could easily replace std::map by a hashmap implementation and that you don't have to do anything by hand.

Otherwise you can also write your own comparator somehow like this:

class MyKeyComp
  operator()(char* lhs, char* rhs)
    return lhs[0] == rhs[0] ? 
       (lhs[1] == rhs[1] ? 
       (lhs[2] == rhs[2] ? 
       (lhs[3] == rhs[3] ? lhs[4] < rhs[4]) 
       : lhs[3] < rhs[3]) 
       : lhs[2] < rhs[2]) 
       : lhs[1] < rhs[1]) 
       : lhs[0] < rhs[0];
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But, see std::lexicographical_compare –  Robᵩ May 24 '11 at 22:09
I do rely on ordering, and I thought I could only add a comparator for sorting (true if less, false if more). –  George Stephanos May 24 '11 at 23:15

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