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I'm writing a game using SFML and C++11 features, such as the range loop. When working on tile maps, I basically made a class for each map tile, a light-weight class that simply contains its sprite, position, and such, and then built some nested vectors to represent the game map layers.

In order to optimize the process of drawing thousands of objects on the screen at a time, I was simply drawing what the player sees. This went well.

I have the following method that renders the game map, the condition basically returns true if the tile position is within the camera boundaries

void gameMap::render(sf::RenderWindow &winMain, sf::Vector2f offset) {
      for(vector<int> vec1 : backgroundData)
           for(int i : vec1)
              if(collides(i.pos, offset)


it works fine, however in-game I am getting 30 FPS roughly, and a lot of rough movement. But what surprises me is that the code bellow does the same thing, renders the same amount of tile sprites, but runs at 65 fps and the movement is perfectly smooth

void gameMap::render(sf::RenderWindow &winMain, sf::Vector2f offset) {
          for(int i = 0; i < backgroundTiles.size(); i++)
               for(int j = 0; j < backgroundTiles[i].size(); j++)
                  if(collides(backgroundTiles[i][j].pos, offset)


Why is this happening? Is the C++11 range-based loop so much slower than the old school for? I really want to hear an answer to this, because my eyes honestly prefer the range based loop, and I'd hate to find out that the range based loop is twice as slow.

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Do not measure performance in FPS. – GManNickG Apr 8 '13 at 16:55

1 Answer 1

up vote 58 down vote accepted

The outer loop is making a copy of each vector contained in backgroundData:

  for(vector<int> vec1 : backgroundData)

Change that to either of the following:

  for(vector<int>& vec1 : backgroundData)
  for(const vector<int>& vec1 : backgroundData)

This will make vec1 into a reference to the vector as opposed to a copy. Since vectors are expensive to copy, while references are cheap to use, this will significantly improve performance.

As to the choice between non-const and const reference, I'd use the latter whenever I can.

A more general alternative is to write

  for(auto&& vec1 : backgroundData)

This creates an automatically-typed reference vec1 to whatever type backgroundData contains. && in this context ends up making vec1 bind to any of: rvalue reference, reference or const reference, depending on the types that backgroundData returns. [Hat tip to @Yakk for providing this recommendation]

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Thanks a bunch, that seems to have done the trick. Any deeper explanation as to why to use the latter? – Zamri Malakun Apr 7 '13 at 17:12
@Zamri: Assuming you mean "why use a const-ref instead of a ref", it adds to code documentation and possibly optimization to note that this loop will not be modifying any of the vectors and would only be looking at them. – Andre Kostur Apr 7 '13 at 17:17
As an alternative, for( auto&& vec1 : backgroundData ) creates an automatically typed reference vec1 to whatever type backgroundData contains. && in this context ends up making vec1 bind to any of rvalue reference, reference or const references, depending on the types that backgroundData returns. This is more useful if you are iterating over containers of more annoying types. :) – Yakk Apr 8 '13 at 2:20
@Yakk: I've taken the liberty to incorporate your great comment into the answer. Hope you don't mind. Thanks! – NPE Apr 9 '13 at 5:42
Use auto&& when you want to modify the element. Use const auto& when you don't. – Sebastian Redl Apr 9 '13 at 11:51

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