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Below are two common issues resulting in undefined behavior due to the sequence point rules:

a[i] = i++; //has a read and write between sequence points
i = i++;   //2 writes between sequence points

What are other things you have encountered with respect to sequence points?

It is really difficult to find out these issues when the compiler is not able to warn us.

share|improve this question
@jaif thanks for editing – yesraaj May 13 '09 at 18:06
no prob. I just wanted to make the title a bit clearer since it sounded like you were asking for help with a specific problem. :) – jalf May 13 '09 at 18:11

A variation of Dario's example is this:

void Foo(shared_ptr<Bar> a, shared_ptr<Bar> b){ ... }

int main() {
  Foo(shared_ptr<Bar>(new Bar), shared_ptr<Bar>(new Bar));

which might leak memory. There is no sequence point between the evaluation of the two parameters, so not only may the second argument be evaluated before the first, but both Bar objects may also be created before any of the shared_ptr's

That is, instead of being evaluated as

Bar* b0 = new Bar();
arg0 = shared_ptr<Bar>(b0);
Bar* b1 = new Bar();
arg1 = shared_ptr<Bar>(b1);
Foo(arg0, arg1);

(which would be safe, because if b0 gets successfully allocated, it gets immediately wrapped in a shared_ptr), it may be evaluated as:

Bar* b0 = new Bar();
Bar* b1 = new Bar();
arg0 = shared_ptr<Bar>(b0);
arg1 = shared_ptr<Bar>(b1);
Foo(arg0, arg1);

which means that if b0 gets allocated successfully, and b1 throws an exception, then b0 will never be deleted.

share|improve this answer
I teared my hair after reading this. – unkulunkulu Sep 1 '11 at 8:39

There are some ambigous cases concerning the order of execution in parameter lists or e.g. additions.

#include <iostream>

using namespace std;

int a() {
	cout << "Eval a" << endl;
	return 1;

int b() { 
	cout << "Eval b" << endl;
	return 2;

int plus(int x, int y) {
	return x + y;

int main() {

	int x = a() + b();
	int res = plus(a(), b());

	return 0;

Is a() or b() executed first? ;-)

share|improve this answer
With respect to the direct addition, s/ambiguous/undefined/, as per the standard (for C, at least) – Stephan202 May 13 '09 at 18:24
It's also undefined for C++. That's not quite the same as ambiguous :) – jalf May 13 '09 at 20:27
up vote 3 down vote accepted

Here is a simple rule from Programming principles and practices using c++ by Bjarne Stroustup

"if you change the value of a variable in an expression.Don't read or write twice in the same expression"

a[i] = i++; //i's value is changed once but read twice
i = i++;   //i's value is changed once but written twice
share|improve this answer

An example similar to Dario's, which I've also seen people fall into:

printf("%s %s\n", inet_ntoa(&addr1), inet_ntoa(&addr2));

Not only will this either print "addr1 addr1" or "addr2 addr2" (because inet_ntoa returns a pointer to a static buffer overwritten by further calls), but also it is not defined which of these will be the case (because C does not specify order of evaluation in argument lists).

share|improve this answer
This one is about ill specification of the inet_ntoa function. Or about the writer of the client code not having read it :) It's not about sequence points. – xtofl May 13 '09 at 19:45
Well, yes, the issue that it prints the same address twice would indicate failure to read man inet_ntoa -- or at least failure to think it through. The problem that you don't know which address will be printed twice is due to the lack of sequence points, though. (In Java, similar code would always print the second address, because it does specify that arguments are fully evaluated in the order they appear.) – ephemient May 13 '09 at 20:09

Here are two good expressions that work for most C compilers, yet are ambiguous due to sequence points:

x ^= y ^= x ^= y; // in-place swap of two variables

And also

int i=0;
printf("%d %d %d", ++i, ++i, ++i);  // usually prints out 3 2 1... but not for all compilers!
share|improve this answer
how do u find out whether an expression is undefined or not?any special rule u follow – yesraaj May 14 '09 at 17:41
The in-place swap is just silly. Use std::swap in C++, or a temp variable in C. It will be faster than the clever XOR trick. – bdonlan May 14 '09 at 18:33

The one I've seen recently was due to programmer's desire to save on class formatting time, completely wrong-headed:

class A


    const char* Format( const string& f ) const
        fmt = Print( f, value );
        return fmt.c_str();

    operator const char* () const { return fmt.c_str(); }


    struct timeval value;
    mutable string fmt;

A a( ... );
printf( "%s %s\n", a.Format( x ), a.Format( y );

The last line would either always print the same value for both formats (or crash the program since internal string would release the returned memory).

Another one is from some interview I had long ago:

void func( int x, int y, int z )
    printf( "%d %d %d\n", x, y, z );

int i = 0;
func( i, ++i, i++ ); /* don't do this in real software :) */

share|improve this answer
Yeah, that's pretty similar to my example, but worse because of the crashability. – ephemient May 15 '09 at 16:41

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