The Wikibooks article on Expression Templates provides more insight, especially the last part:
The above example does not show how recursive types are generated at compile-time. Also, expr does not look like a mathematical expression at all, but it is indeed one. The code that follows show how types are recursively composed using repetitive instantiation of the following overloaded + operator.
template< class A, class B >
DExpression<DBinaryExpression<DExpression<A>, DExpression<B>, Add> >
operator + (DExpression<A> a, DExpression<B> b)
typedef DBinaryExpression <DExpression<A>, DExpression<B>, Add> ExprT;
The above overloaded operator+ does two things - it adds syntactic sugar and enables recursive type composition, bounded by the compiler's limits. It can therefore be used to replace the call to evaluate as follows:
evaluate (a.begin(), a.end(), x + l + x);
/// It is (2*x + 50.00), which does look like a mathematical expression.