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Perhaps something similar has already been asked, and sure, it's a nitpick...

I have a bunch of constant std::maps to switch between enum (class) values and their std::string representations (both ways). Someone here pointed out to me that these maps will be initialized at runtime, when other initialization code is run, before my program executes all the good stuff. This would mean constant expressions would impact runtime performance, as the maps are built up from their enum-string pairs.

As an illustrative example, here is an example of one of these maps:

enum class os
const map<string, os> os_map =
     { {"windows", os::Windows},
       {"linux",   os::Linux},
       {"mac",     os::MacOSX} };
const map<os, string> os_map_inverse =
     { {os::Windows, "windows"},
       {os::Linux,   "linux"},
       {os::MacOSX,  "mac"} };

Would the C++11 constexpr have any influence on performance, or is my assumption of a runtime initialization penalty false? I would think a compiler can embed a constant STL container as pure data in the executable, but apparently that may not be as easy as I make it sound?

share|improve this question
Why don't you try boost::bimap for the two-sided mapping between the enum and its string representation? Much less likely to make an error when adding new values. – Xeo Nov 6 '11 at 12:45
Xeo: pull in Boost for a thing as simple as this? No thanks, I'm dependency-free, and would really like to keep it that way ;)... I might even replace the string->enum map with an unordered_map and the enum->string map with a vector (enum values aren't important, they just count up one by one) for performance if that would improve anything. boost::bimap would suck in comparison :) – rubenvb Nov 6 '11 at 13:14
@rubenvb : And yet Boost.MultiIndex could do exactly that, much more succinctly, with 0 overhead. Please don't view Boost as a 'dependency'. – ildjarn Nov 9 '11 at 0:15
up vote 13 down vote accepted

It's not so much the performance of initialization that is a problem, but the order of initialization. If someone uses your map before main has started (for example at initialization for a namespace scope variable), then you are SOL, because you are not guaranteed that your map has been initialized before the user's initialization uses it.

However you can do this thing at compile time. String literals are constant expressions, as are enumerators. A simple linear-time complexity structure

struct entry {
  char const *name;
  os value;

constexpr entry map[] = {
  { "windows", os::Windows },
  { "linux", os::Linux },
  { "mac", os::Mac }

constexpr bool same(char const *x, char const *y) {
  return !*x && !*y ? true : (*x == *y && same(x+1, y+1));

constexpr os value(char const *name, entry const *entries) {
  return same(entries->name, name) ? entries->value : value(name, entries+1);

If you use value(a, b) in a constant expression context, and the name you specify doesn't exist, you will get a compile time error because the function call would become non-constant.

To use value(a, b) in a non-constant expression context, you better add safety features, like adding an end marker to your array and throwing an exception in value if you hit the end marker (the function call will still be a constant expression as long as you never hit the end marker).

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Seems it's not working (GCC 4.5.1): . Do you think it's a compiler issue? – atzz Nov 6 '11 at 16:55
@atzz yes it's a compiler issue. Try GCC4.6. – Johannes Schaub - litb Nov 6 '11 at 17:15
Johannes, thanks for the reply; I will, tomorrow. Don't have the compiler available at the moment. – atzz Nov 6 '11 at 17:49
With GCC4.6 it works as expected, and indeed shows that constexpr support was added in 4.6. Johannes, sorry for all this back-and-forth; I shouldn't have been dabbling in C++ at Sunday evening ;) – atzz Nov 8 '11 at 7:21

constexpr does not work on arbitrary expressions, and especially not on things that will use the freestore. map/string will use the freestore, and thus constexpr will not work for initializing them at compile time, and have no code run at runtime.

As for the runtime penalty: Depending on the storage duration of those variables (and I assume static here, which means initialization before main), you will not even be able to measure the penalty, especially not in the code that is using them, assuming you will use them many times, where the lookup has much more "overhead" than the initialization.

But as for everything, remember rule one: Make things work. Profile. Make things fast. In this order.

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Ah yes, it's a typical issue.

The only alternative I've found to avoid this runtime initialization is to use plain C structures. If you're willing to go the extra-mile and store the values in a plain C array, you can get static initialization (and reduced memory footprint).

It's one of the reason LLVM/Clang actually use the tblgen utility: plain tables are statically initialized, and you can generate them sorted.

Another solution would be to create a dedicated function instead: for the enum to string conversion it's easy to use a switch and let the compiler optimize it into a plain table, for the string to enum it's a bit more involved (you need if/else branches organized right to get the O(log N) behavior) but for small enums a linear search is as good anyway, in which case a single macro hackery (based off Boost Preprocessor goodness) can get you everything you need.

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