It is a known fact that argument evaluation order in c and c++ are not defined:
foo(a(),b()) In the above call it is up to the implementation of the compiler to decide which order of evaluation to pick and hence forth which function to execute first. Lately one of my friends asked why is the order of evaluation unspecified in C or C++. When I googled it, I came to know that specifying an evaluation order would lead to sub-optimal code generation. But how is it so? Why would a defined order of evaluation of arguments lead to sub-optimal code? And when I referred to Java's argument evaluation order. I found the following in the spec.
15.7.4. Argument Lists are Evaluated Left-to-Right
In a method or constructor invocation or class instance creation expression, argument expressions may appear within the parentheses, separated by commas. Each argument expression appears to be fully evaluated before any part of any argument expression to its right. If evaluation of an argument expression completes abruptly, no part of any argument expression to its right appears to have been evaluated?
That being the case, Java has a defined argument evaluation order, but saying C or C++ compilers would yield sub-optimal code if such a behavior is specified seems a little odd. Can you throw some light on this?