These are two functionally equivalent declarations:
int& a; // & associated with type
int &a; // & associated with variable
* with the type name reflects the desire of the programmer to have a separate pointer type. However, the difficulty of associating the
* with the type name rather than the variable is that, according to the formal
C++ syntax, neither the
& nor the
* is distributive over a list of variables. Thus, easily creating misleading declarations. For example, the following declaration creates one, not two, integer references.
int& a, b;
b is declared as an integer (not an integer reference) because, when used in a declaration, the
*) is linked to the individual variable
that it precedes, not to the type that it follows. The problem with this declaration is that, visually both a and b seem to be of reference types, even though, only
a is a reference, thus visual confusion not only misleads novice
C++ programmers, but occasionally experienced programmers too.
It doesn't matter whether you write
int &a or
int& a for a
C++ compiler. However, to avoid confusion,
* should be associated with variable rather than type.