binopsbase(3bobcat) | Binary Operators | binopsbase(3bobcat) |
BinopsBase - Class template offering class-type binary operators
#include <bobcat/binopsbase>
Classes may overload binary operators. A class named Derived may overload binary operators to suit its own needs. It could, e.g., allow two Derived class objects to be added together, or it could define a shift-operation given a size_t right-hand side (rhs) argument.
The available binary operators are *, /, %, +, -, <<, >>, &, |, and ^ (in this man-page they are generically indicated as the `@’ operator). In addition, overloaded operator<< and operator>> for stream insertion and extraction are frequently defined.
If a class Derived supports copy and/or move construction and if it offers a swap member (void Derived::swap(Derived &rhs)), and is publicly derived from FBB::BinopsBase<Derived> then once Derived defines a member
defining the compound @-operator for anonymous, temporary Derived objects and a Rhs type for its right-hand side operand the following operators are also available:
void Class::operator@=(Rhs const &rhs) &&
Derived &operator@=(Rhs const &rhs) &
Derived operator@(Derived &&lhs, Rhs const &rhs);
Derived operator@(Derived const &lhs, Rhs const &rhs);
A similar procedure applies to the insertion and extraction operators. Insertion and extraction operators become available once BinopsBase<Derived> is declared a friend class of Derived. To make the insertion operator available a private member
must then also be defined, inserting the calling object into out. Analogously, to make the extraction operator available a private member
void Derived::insert(std::ostream &out) const
must be defined extrating the calling object from in.
void Derived::extract(std::istream &in)
--
For each defined Derived &&operator@=(Rhs const &rhs) &&, defined in the class Derived the following operators are automatically also available:
Derived operator@(Derived &&lhs, Rhs const &rhs);
Derived operator@(Derived const &lhs, Rhs const &rhs);
and
Derived &operator@=(Rhs const &rhs) &;
The insertion operator becomew available once
(inserting the calling object into out) has been defined. Analogously, the extraction operator becomes available after defining a private member
void Derived::insert(std::ostream &out) const
(extracting the calling object from in).
void Derived::extract(std::istream &in)
To make the insertion and/or extraction operators available the class Derived must also declare
friend FBB::BinopsBase<Derived>;
#include <iostream> #include <bobcat/binopsbase> class Demo1: public FBB::BinopsBase<Demo1> {
friend FBB::BinopsBase<Demo1>; // for insert/extract
public:
void swap(Demo1 &other)
{}
Demo1 &&operator+=(Demo1 const &rhs) &&
{
std::cout << "adding two Demo1 objects\n";
return std::move(*this);
} // Explicit definitions take precedence over functions templates // instantiated from definitions in bobcat/binopsbase. // Demo1 &operator+=(Demo1 const &rhs) & // { // std::cout << "adding (self-defined) two Demo1 objects\n"; // return *this; // }
Demo1 &&operator-=(Demo1 const &rhs) &&
{
std::cout << "subtracting two Demo1 objects\n";
return std::move(*this);
}
Demo1 &&operator<<=(Demo1 const &rhs) &&
{
std::cout << "shiftleft on two Demo1 objects\n";
return std::move(*this);
}
Demo1 &&operator<<=(size_t rhs) &&
{
std::cout << "shiftleft Demo1 object size_t bits\n";
return std::move(*this);
}
void insert(std::ostream &out) const // requires friend
{
out << "inerting a Demo1 object\n";
}
void extract(std::istream &in) // requires friend
{
std::cout << "extracting a Demo1 object\n";
} }; class Demo2: public FBB::BinopsBase<Demo2> {
public:
void swap(Demo2 &other)
{}
Demo2 &&operator+=(Demo2 const &rhs) &&
{
std::cout << "adding two Demo2 objects\n";
return std::move(*this);
}
Demo2 &operator+=(Demo2 const &rhs) &
{
std::cout << "adding (self-defined) two Demo2 objects";
return *this;
}
Demo2 &&operator^=(Demo2 const &rhs) &&
{
std::cout << "xor-ing two Demo2 objects\n";
return std::move(*this);
}
Demo2 &&operator|=(Demo2 const &rhs) &&
{
std::cout << "or-ing two Demo2 objects\n";
return std::move(*this);
} }; int main() {
Demo1 d1a, d1b;
Demo1 d1c = d1a + d1b;
d1a += d1b;
d1c = Demo1{} + d1b;
std::cout << "Here we are " << d1c << ’\n’;
std::cin >> d1c;
d1a <<= d1a;
d1a <<= 5;
Demo2 d2a, d2b;
Demo2 d2c = d2a + d2b;
d2a ^= d2b;
d2c = Demo2{} ^ d2b;
d2c = d2c | d2b; }
bobcat/binopsbase - defines the binary operator function templates
None Reported.
Bobcat is an acronym of `Brokken’s Own Base Classes And Templates’.
This is free software, distributed under the terms of the GNU General Public License (GPL).
Frank B. Brokken (f.b.brokken@rug.nl).
2005-2022 | libbobcat-dev_6.02.02 |