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std::map<int, int> my_map;
my_map[0] = my_map.size();

Then, will my_map[0] be 0 or 1, or undefined?

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why not try it out urself, it is 2 lines of code – yngum Aug 29 '12 at 0:34
@yngum: You flip a coin, it lands heads up. Does that show that coins land heads up when flipped? The question is about C++ itself, not about a particular compiler, library, or platform. – David Schwartz Aug 29 '12 at 0:35
Except here the likeliness of the randomness recurring is unlikely. Once it lands heads, it's likely to always land heads for the next while you test it. – chris Aug 29 '12 at 0:36
@DavidSchwartz, What I mean is that if you compile it and run it, and it shows 1, you could run it ten more times and probably end up with all 1s. Then someone else could compile and run it on their machine ten times and get all 0s. – chris Aug 29 '12 at 0:39
@chris: Sure, but I wasn't talking about video taping yourself flipping a coin and watching it several times. I was talking about flipping a coin several times. The process here involves selecting a platform, compiler, and optimization level, compiling this code, running it, looking at the output, and reporting it. That's what yngum was asking someone to do -- not run some code that was already compiled. He was suggesting that someone could easily do this once and answer the question. – David Schwartz Aug 29 '12 at 0:39
up vote 6 down vote accepted

There is no sequence point here, so the evaluation order is unspecified (or, in C++11 jargon, the two expressions are indeterminately sequenced). The value of my_map[0] is 0 or 1 depending on the implementation.

  • my_map[0] will increase the size if its evaluated first, causing my_map.size() to evaluate to 1. my_map[0] will then be 1.
  • However, if my_map.size() is evaluated first, then the value for my_map[0] will be 0.

Now, how to make the above behavior well-defined? You must introduce a sequence point, that is, force one expression to be sequenced before the other; for behavior like the first,

int& val = my_map[0];
val = my_map.size();

... or, for behavior like the second,

int sz = my_map.size();
my_map[0] = sz;

Make sure to upvote Oo Tiib for being the first to demonstrate how to introduce sequencing for the expressions :-)

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-1 "so the evaluation order is unspecified (or, in C++11 jargon, the two expressions are unsequenced). The value of my_map[0] is 0 or 1 depending on the implementation." - I'd say this actually falls under 1.9.15 "If a side effect on a scalar object is unsequenced relative to either anotherside effect on the same scalar object or a value computation using the value of the same scalar object, the behavior is undefined.", so it's undefined behaviour, not an unspecified choice between 0 and 1. Huge difference. – Tony D Aug 29 '12 at 2:21
@Tony Delroy: Where do you see multiple unsequenced access to the same scalar object here, as required by your quote? – AnT Aug 29 '12 at 5:39
@AndreyT: Nowhere. It is stretched. map::operator[]() may modify size of map and in OP example it certainly does. map::size() accesses it. C++ standard requires map::size() to be O(1) so for that map has likely to keep some member of arithmetic type. – Öö Tiib Aug 29 '12 at 8:28
@Tony Delroy: No, that's incorrect. You keep quoting irrelevant statements. Your quote from 1.9/13 refers to immediate evaluations, not wrapped into functions. Meanwhile, the relevant statements are made in 1.9/15. It clearly states that different function calls made from the caller are indeterminately sequenced with relation to each other (and footnote 9 clarifies that it means that execution of function bodies cannot be interleaved). It also states that inlining has no effect on sequencing. Again: execution of functions cannot overlap. – AnT Aug 30 '12 at 5:51
In the original example both accesses to the alleged scalar internal_size field are wrapped into functions (operator [] and size()). That immediately means that in the original expression these accesses are indeterminately sequenced. Not unsequenced, but indeterminately sequenced. No undefined behavior here. There was no undefined behavior here in C++03, there's no undefined behavior here in C++11. – AnT Aug 30 '12 at 5:52

There are no guarantees either way unless your compiler provides guarantees. C++ standard does not.

If you need my_map.operator [](0) evaluated first then write:

int& m0 = my_map[0]; 
m0 = my_map.size();

If you need the my_map.size() evaluated first then write:

int s = my_map.size();
my_map[0] = s;
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That is one way to introduce a sequence point, yes. – oldrinb Aug 29 '12 at 0:51
Seems that it was good way ... or why else you edited your answer to contain about same example. ;) – Öö Tiib Aug 29 '12 at 1:01
+1 for good advice on how to fix it, and not having false analysis of the possible behaviours. – Tony D Aug 29 '12 at 14:56


my_map[0] = my_map.size();

is equivalent to

my_map.operator [](0) = my_map.size();

with assignment operator being the built-in assignment for int.

It is unspecified which side of the built-in assignment is evaluated first. For this reason it is unspecified whether 0 or 1 will be assigned.

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