I have difficulties in understanding the sequence of calls in the code below. I was expecting to see the output below


While I can see that the output I get is


I thought that the call std::cout<< b->fooA() << b->fooB() << std::endl was equivalent to call

  std::cout.operator<<( b->fooA() ).operator<< ( b->fooB() )

but I can see that this is not the case. Can you help me understanding better how this does it work and the relationship with the global operator<<? Is this last ever called in this sequence?

#include <iostream>

struct cbase{
    int fooA(){
        return 1;
    int fooB(){
        std::cout <<"B";
        return 2;

void printcbase(cbase* b ){
    std::cout << b->fooA() << b->fooB() << std::endl;

int main(){
    cbase b;
    printcbase( &b );
  • 3
    You are correct in thinking that it is equivalent to that. However, you are making the mistaken assumption that there is a well-defined order of evaluation. There isn't. That is all. Feb 11, 2013 at 10:14
  • Order of subexpression evaluation is not guaranteed here (and it has to be a duplicate, but I can't find a good canonical question right now) Feb 11, 2013 at 10:14
  • AB12 or BA12 are possible outputs. A1B2 is not (hopefully).
    – jrok
    Feb 11, 2013 at 10:19
  • Not exactly a duplicate but the answers to this question do explain the unspecified order you are experiencing. What is the correct answer for cout << c++ << c;?
    – Alok Save
    Feb 11, 2013 at 10:19
  • 1
    @jrok yes, it is. (assume < means "is before") Every combination where: A < 1 && B < 2 && 1 < 2 is valid. Feb 11, 2013 at 10:24

4 Answers 4


The compiler can evaluate the function printcbase() as this:

void printcbase(cbase* b ){
    int a = b->FooA();    // line 1
    int b = b->FooB();    // line 2
    std::cout << a;       // line 3
    std::cout << b;       // line 4
    stc::cout << std::endl;

or some of many permutatins of lines marked as 1 - 4. You are only guaranteed that that the line 1 is done before the line 3, and line 2 before the line 4 (and of course line 3 before line 4). Standard does not say more and indeed you can expect different results with different C++ compilers.

  • one constraint is missing line 3 is before line 4. Feb 11, 2013 at 10:35
  • Well, right that is so obvious, it was not a point of my thinking. I'll add it. Thanks.
    – mity
    Feb 11, 2013 at 10:37

The order of execution of << is well defined but the order of evaluation of sub-expressions is not defined in C++. This article and the C code example illustrates the problem you mentioned.

BA12 and AB12 are both correct. In the following code:

std::cout<< b->fooA() << b->fooB()

1 will appear before 2 but A could appear before or after B since the compiler does not promise whether it will evaluate fooA or fooB first.


The shift operators are left-associative; a << b << c is read as (a << b) << c, meaning that if a is of a type with member user-defined operator<< (and returns that type) then the expression reads as a.operator<<(b).operator<<(c). If instead a free operator<< is used, then this reads as operator<<(operator<<(a, b), c).

So the evaluation of a << b is sequenced before the evaluation of (a << b) << c, but there is no sequencing dependency between the evaluation of b and c:

a << b << c[1]
|         |
a << b[2] |
|    |    c[5]
a[3] b[4]

If we number the side-effects as above, then the side-effects can be sequenced as any of:


Since C++17, from https://en.cppreference.com/w/cpp/language/eval_order

  1. In a shift operator expression E1 << E2 and E1 >> E2, every value computation and side effect of E1 is sequenced before every value computation and side effect of E2

You are guaranteed that:

std::cout << b->fooA() << b->fooB() << std::endl;
// (((std::cout << b->fooA()) << b->fooB()) << std::endl);

is evaluate from left to right, resulting in output A1B2.

For previous version, guaranties on output are only:

  • A before 1
  • B before 2
  • 1 before 2

so one of A1B2, AB12, BA12.

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