boost_1_45_0/libs/python/test/operators.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Copyright David Abrahams 2002.
 // Distributed under the Boost Software License, Version 1.0. (See
 // accompanying file LICENSE_1_0.txt or copy at
 // http://www.boost.org/LICENSE_1_0.txt)
 #include <boost/python/operators.hpp>
 #include <boost/python/class.hpp>
 #include <boost/python/module.hpp>
 #include <boost/python/def.hpp>
 #include "test_class.hpp"
 #include <boost/python/module.hpp>
 #include <boost/python/class.hpp>
 #include <boost/python/operators.hpp>
 #include <boost/operators.hpp>
 //#include <boost/python/str.hpp>
 // Just use math.h here; trying to use std::pow() causes too much
 // trouble for non-conforming compilers and libraries.
 #include <math.h>

 #if __GNUC__ != 2
 # include <ostream>
 #else
 # include <ostream.h>
 #endif

 using namespace boost::python;


 using namespace boost::python;

 struct X : test_class<>
 {
     typedef test_class<> base_t;

     X(int x) : base_t(x) {}
     X const operator+(X const& r) const { return X(value() + r.value()); }

 //    typedef int (X::*safe_bool)() const;
 //    operator safe_bool() const { return value() != 0 ? &X::value : 0; }
 };

 X operator-(X const& l, X const& r) { return X(l.value() - r.value()); }
 X operator-(int l, X const& r) { return X(l - r.value()); }
 X operator-(X const& l, int r) { return X(l.value() - r); }

 X operator-(X const& x) { return X(-x.value()); }

 X& operator-=(X& l, X const& r) { l.set(l.value() - r.value()); return l; }

 bool operator<(X const& x, X const& y) { return x.value() < y.value(); }
 bool operator<(X const& x, int y) { return x.value() < y; }
 bool operator<(int x, X const& y) { return x < y.value(); }

 X abs(X x) { return X(x.value() < 0 ? -x.value() : x.value()); }

 X pow(X x, int y)
 {
     return X(int(pow(double(x.value()), double(y))));
 }

 X pow(X x, X y)
 {
     return X(int(pow(double(x.value()), double(y.value()))));
 }

 int pow(int x, X y)
 {
     return int(pow(double(x), double(y.value())));
 }

 std::ostream& operator<<(std::ostream& s, X const& x)
 {
     return s << x.value();
 }

 struct number
   : boost::integer_arithmetic<number>
 {
     explicit number(long x_) : x(x_) {}
     operator long() const { return x; }

     template <class T>
     number& operator+=(T const& rhs)
     { x += rhs; return *this; }

     template <class T>
     number& operator-=(T const& rhs)
     { x -= rhs; return *this; }

     template <class T>
     number& operator*=(T const& rhs)
     { x *= rhs; return *this; }

     template <class T>
     number& operator/=(T const& rhs)
     { x /= rhs; return *this; }

     template <class T>
     number& operator%=(T const& rhs)
     { x %= rhs; return *this; }

    long x;
 };

 BOOST_PYTHON_MODULE(operators_ext)
 {
     class_<X>("X", init<int>())
         .def("value", &X::value)
         .def(self + self)
         .def(self - self)
         .def(self - int())
         .def(other<int>() - self)
         .def(-self)
         .def(self < other<int>())
         .def(self < self)
         .def(1 < self)
         .def(self -= self)

         .def(abs(self))
         .def(str(self))

         .def(pow(self,self))
         .def(pow(self,int()))
         .def(pow(int(),self))
         .def(
             !self
             // "not self" is legal here but causes friction on a few
             // nonconforming compilers; it's cute because it looks
             // like python, but doing it here doesn't prove much and
             // just causes tests to fail or complicated workarounds to
             // be enacted.
         )
         ;

     class_<number>("number", init<long>())
       // interoperate with self
       .def(self += self)
       .def(self + self)
       .def(self -= self)
       .def(self - self)
       .def(self *= self)
       .def(self * self)
       .def(self /= self)
       .def(self / self)
       .def(self %= self)
       .def(self % self)

       // Convert to Python int
       .def(int_(self))

       // interoperate with long
       .def(self += long())
       .def(self + long())
       .def(long() + self)
       .def(self -= long())
       .def(self - long())
       .def(long() - self)
       .def(self *= long())
       .def(self * long())
       .def(long() * self)
       .def(self /= long())
       .def(self / long())
       .def(long() / self)
       .def(self %= long())
       .def(self % long())
       .def(long() % self)
       ;

     class_<test_class<1> >("Z", init<int>())
         .def(int_(self))
         .def(float_(self))
         .def(complex_(self))
         ;
 }

 #include "module_tail.cpp"
	// Copyright David Abrahams 2002.
	// Distributed under the Boost Software License, Version 1.0. (See
	// accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)
	#include <boost/python/operators.hpp>
	#include <boost/python/class.hpp>
	#include <boost/python/module.hpp>
	#include <boost/python/def.hpp>
	#include "test_class.hpp"
	#include <boost/python/module.hpp>
	#include <boost/python/class.hpp>
	#include <boost/python/operators.hpp>
	#include <boost/operators.hpp>
	//#include <boost/python/str.hpp>
	// Just use math.h here; trying to use std::pow() causes too much
	// trouble for non-conforming compilers and libraries.
	#include <math.h>

	#if __GNUC__ != 2
	# include <ostream>
	#else
	# include <ostream.h>
	#endif

	using namespace boost::python;


	using namespace boost::python;

	struct X : test_class<>
	{
	typedef test_class<> base_t;

	X(int x) : base_t(x) {}
	X const operator+(X const& r) const { return X(value() + r.value()); }

	// typedef int (X::*safe_bool)() const;
	// operator safe_bool() const { return value() != 0 ? &X::value : 0; }
	};

	X operator-(X const& l, X const& r) { return X(l.value() - r.value()); }
	X operator-(int l, X const& r) { return X(l - r.value()); }
	X operator-(X const& l, int r) { return X(l.value() - r); }

	X operator-(X const& x) { return X(-x.value()); }

	X& operator-=(X& l, X const& r) { l.set(l.value() - r.value()); return l; }

	bool operator<(X const& x, X const& y) { return x.value() < y.value(); }
	bool operator<(X const& x, int y) { return x.value() < y; }
	bool operator<(int x, X const& y) { return x < y.value(); }

	X abs(X x) { return X(x.value() < 0 ? -x.value() : x.value()); }

	X pow(X x, int y)
	{
	return X(int(pow(double(x.value()), double(y))));
	}

	X pow(X x, X y)
	{
	return X(int(pow(double(x.value()), double(y.value()))));
	}

	int pow(int x, X y)
	{
	return int(pow(double(x), double(y.value())));
	}

	std::ostream& operator<<(std::ostream& s, X const& x)
	{
	return s << x.value();
	}

	struct number
	: boost::integer_arithmetic<number>
	{
	explicit number(long x_) : x(x_) {}
	operator long() const { return x; }

	template <class T>
	number& operator+=(T const& rhs)
	{ x += rhs; return *this; }

	template <class T>
	number& operator-=(T const& rhs)
	{ x -= rhs; return *this; }

	template <class T>
	number& operator*=(T const& rhs)
	{ x = rhs; return this; }

	template <class T>
	number& operator/=(T const& rhs)
	{ x /= rhs; return *this; }

	template <class T>
	number& operator%=(T const& rhs)
	{ x %= rhs; return *this; }

	long x;
	};

	BOOST_PYTHON_MODULE(operators_ext)
	{
	class_<X>("X", init<int>())
	.def("value", &X::value)
	.def(self + self)
	.def(self - self)
	.def(self - int())
	.def(other<int>() - self)
	.def(-self)
	.def(self < other<int>())
	.def(self < self)
	.def(1 < self)
	.def(self -= self)

	.def(abs(self))
	.def(str(self))

	.def(pow(self,self))
	.def(pow(self,int()))
	.def(pow(int(),self))
	.def(
	!self
	// "not self" is legal here but causes friction on a few
	// nonconforming compilers; it's cute because it looks
	// like python, but doing it here doesn't prove much and
	// just causes tests to fail or complicated workarounds to
	// be enacted.
	)
	;

	class_<number>("number", init<long>())
	// interoperate with self
	.def(self += self)
	.def(self + self)
	.def(self -= self)
	.def(self - self)
	.def(self *= self)
	.def(self * self)
	.def(self /= self)
	.def(self / self)
	.def(self %= self)
	.def(self % self)

	// Convert to Python int
	.def(int_(self))

	// interoperate with long
	.def(self += long())
	.def(self + long())
	.def(long() + self)
	.def(self -= long())
	.def(self - long())
	.def(long() - self)
	.def(self *= long())
	.def(self * long())
	.def(long() * self)
	.def(self /= long())
	.def(self / long())
	.def(long() / self)
	.def(self %= long())
	.def(self % long())
	.def(long() % self)
	;

	class_<test_class<1> >("Z", init<int>())
	.def(int_(self))
	.def(float_(self))
	.def(complex_(self))
	;
	}

	#include "module_tail.cpp"