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I'm writing an application with a high performance thread that doesn't allow allocation. I have a map that looks like this:

map<String, MyCustomClass> objectCollection;

Where String is a custom wrapper around std::string. I want to be able to write code like this on the high priority thread:

int someValue = objectCollection["some string"].value;

When I do this, indexing into the array causes the construction of a String, which requires allocation. My thought was that I might be able to define a custom comparator for my map that would accept a const char*, and be able to do string comparison with a String's c string guts. Is this possible? How might it look?

I can do something like this with String instances:

String strTest = "";
const char* chars = strTest.chars();
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Will "some string" always be a constant or can it be any const char*? –  Nate Kohl Jan 22 '14 at 0:53
If you need speed, have you considered std::unordered_map ? –  Borgleader Jan 22 '14 at 0:54
@Nate Kohl "some string" will literally be programmed into the code. Definitely a constant. –  ZECTBynmo Jan 22 '14 at 0:56
@Borgleader how would that help me with this problem? –  ZECTBynmo Jan 22 '14 at 0:56
Are all the subscript strings known ahead of time? You might look at the perfect hash function generator (gperf). –  brian beuning Jan 22 '14 at 1:14

4 Answers 4

You can get away with doing only one allocation.

static const string Key("some string");
int someValue = objectCollection[Key];

Doing it with zero allocations would require a different string class. You would have somehow make use of const char* and a custom comparison mechanism.

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Sorry, 0 allocations allowed. Thanks for the answer though. –  ZECTBynmo Jan 22 '14 at 0:54
Shouldn't it be static const string Key("some string");? –  timrau Jan 22 '14 at 0:55
@ZECTBynmo: I suspect you're missing the point here... another thread or the OS loader could construct Key before the "high performance" thread starts, and the latter could repeatedly assign new text into it that won't allocate unless longer than the existing capacity(). If the high-perf thread isn't extremely transient, it could take the hit of a one-off allocation at startup, knowing however-many subsequent assignment (and hence map indexing) operations will be fast. Key could be made thread-specific if there are several high-perf threads. –  Tony D Jan 22 '14 at 1:11
@timrau - the two lines are practically identical, when you declare the variable and use = on the same line it is not assignment, the copy constructor gets called instead. –  ddriver Jan 22 '14 at 1:11
I'll change it just to be succinct. –  TheBuzzSaw Jan 22 '14 at 1:20

A custom comparison won't do you any good with a map; the lookup operator always converts its argument to the key type, regardless of how the comparison operator works. But when you want fast lookups, there's probably a better way.

Keeping things in a sorted vector and looking them up using the binary search algorithms (lower_bound() etc) is usually faster than looking them up in a map (because, among other things, a map's internal tree structure imposes a good deal of pointer chasing on each lookup). A map is much faster for insertion than a sorted vector, but when fast lookup is more important than fast insertion, the vector is usually faster, and the vector has the advantage that you can use a heterogeneous comparison function (one that takes two different argument types).

Something like this:

struct Element {
    std::string key;
    Thing value;

bool compare(const Element& lhs, const char* rhs) {
    return lhs.key < rhs;

using Collection = std::vector<Element>;

inline Thing lookup(const char* key, const Collection& coll) {
    // Requires coll to be already sorted
    auto i(std::lower_bound(coll.begin(), coll.end(), key, compare));
    if (i != coll.end() && i->key == key)
        return i->value;
        return Thing();
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+1 for suggesting what might be a good alternative, though you don't mention some major drawbacks - especially for threaded access, it may be important that objects in sorted vectors may be moved during further insert/erase operations, whereas existing std::map elements are never moved (i.e. iterators/pointers not invalidated). –  Tony D Jan 22 '14 at 1:42
Yes, the sorted vector approach is ideal for situations where you build up the array in one phase of the program, sort it, and then look things up in a separate phase, with no (or very few) insertions or deletions interleaved with the lookups. If interleaved queries and updates are common, a map or unordered_map is definitely more efficient. –  Ross Smith Jan 22 '14 at 2:03

All you can do is change the key_type to const char* since map::find aswell as map::operator[] aswell as map::at take key_type as their argument. as such even if you pass a const char* it will construct a String before the map function is even called. So unless you make your String static you wont get away without constructing one.

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Is there a way to define an alternate comparison operator that can accept alternate types? –  ZECTBynmo Jan 22 '14 at 1:06
yes this will still call the constructor though and you could even take const String& as param that also wouldnt call the String constructor problem is it gets called since find/[]/at take a String as arg –  ACB Jan 22 '14 at 1:07
@ZECTBynmo The 3rd argument to map<> is user defined comparator. –  brian beuning Jan 22 '14 at 5:18

In C++14, there are some neat new features that should allow this to happen. For instance, there's a templated map::find

template< class K > iterator find( const K& x );

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