|
Home | Libraries | People | FAQ | More |
template<typename T> quaternion<T> operator + (quaternion<T> const & q);
This unary operator simply returns q.
template<typename T> quaternion<T> operator - (quaternion<T> const & q);
This unary operator returns the opposite of q.
template<typename T> quaternion<T> operator + (T const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator + (quaternion<T> const & lhs, T const & rhs); template<typename T> quaternion<T> operator + (::std::complex<T> const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator + (quaternion<T> const & lhs, ::std::complex<T> const & rhs); template<typename T> quaternion<T> operator + (quaternion<T> const & lhs, quaternion<T> const & rhs);
These operators return quaternion<T>(lhs) +=
rhs.
template<typename T> quaternion<T> operator - (T const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator - (quaternion<T> const & lhs, T const & rhs); template<typename T> quaternion<T> operator - (::std::complex<T> const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator - (quaternion<T> const & lhs, ::std::complex<T> const & rhs); template<typename T> quaternion<T> operator - (quaternion<T> const & lhs, quaternion<T> const & rhs);
These operators return quaternion<T>(lhs) -=
rhs.
template<typename T> quaternion<T> operator * (T const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator * (quaternion<T> const & lhs, T const & rhs); template<typename T> quaternion<T> operator * (::std::complex<T> const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator * (quaternion<T> const & lhs, ::std::complex<T> const & rhs); template<typename T> quaternion<T> operator * (quaternion<T> const & lhs, quaternion<T> const & rhs);
These operators return quaternion<T>(lhs) *=
rhs.
template<typename T> quaternion<T> operator / (T const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator / (quaternion<T> const & lhs, T const & rhs); template<typename T> quaternion<T> operator / (::std::complex<T> const & lhs, quaternion<T> const & rhs); template<typename T> quaternion<T> operator / (quaternion<T> const & lhs, ::std::complex<T> const & rhs); template<typename T> quaternion<T> operator / (quaternion<T> const & lhs, quaternion<T> const & rhs);
These operators return quaternion<T>(lhs) /=
rhs. It is of course still an error
to divide by zero...
template<typename T> bool operator == (T const & lhs, quaternion<T> const & rhs); template<typename T> bool operator == (quaternion<T> const & lhs, T const & rhs); template<typename T> bool operator == (::std::complex<T> const & lhs, quaternion<T> const & rhs); template<typename T> bool operator == (quaternion<T> const & lhs, ::std::complex<T> const & rhs); template<typename T> bool operator == (quaternion<T> const & lhs, quaternion<T> const & rhs);
These return true if and only if the four components of quaternion<T>(lhs) are
equal to their counterparts in quaternion<T>(rhs). As
with any floating-type entity, this is essentially meaningless.
template<typename T> bool operator != (T const & lhs, quaternion<T> const & rhs); template<typename T> bool operator != (quaternion<T> const & lhs, T const & rhs); template<typename T> bool operator != (::std::complex<T> const & lhs, quaternion<T> const & rhs); template<typename T> bool operator != (quaternion<T> const & lhs, ::std::complex<T> const & rhs); template<typename T> bool operator != (quaternion<T> const & lhs, quaternion<T> const & rhs);
These return true if and only if quaternion<T>(lhs) ==
quaternion<T>(rhs) is
false. As with any floating-type entity, this is essentially meaningless.
template<typename T, typename charT, class traits> ::std::basic_istream<charT,traits>& operator >> (::std::basic_istream<charT,traits> & is, quaternion<T> & q);
Extracts a quaternion q of one of the following forms (with a, b, c and d
of type T):
a (a), (a,b), (a,b,c), (a,b,c,d) (a,(c)), (a,(c,d)), ((a)), ((a),c),
((a),(c)), ((a),(c,d)), ((a,b)), ((a,b),c), ((a,b),(c)), ((a,b),(c,d))
The input values must be convertible to T.
If bad input is encountered, calls is.setstate(ios::failbit)
(which may throw ios::failure (27.4.5.3)).
Returns: is.
The rationale for the list of accepted formats is that either we have a list of up to four reals, or else we have a couple of complex numbers, and in that case if it formated as a proper complex number, then it should be accepted. Thus potential ambiguities are lifted (for instance (a,b) is (a,b,0,0) and not (a,0,b,0), i.e. it is parsed as a list of two real numbers and not two complex numbers which happen to have imaginary parts equal to zero).
template<typename T, typename charT, class traits> ::std::basic_ostream<charT,traits>& operator << (::std::basic_ostream<charT,traits> & os, quaternion<T> const & q);
Inserts the quaternion q onto the stream os
as if it were implemented as follows:
template<typename T, typename charT, class traits> ::std::basic_ostream<charT,traits>& operator << ( ::std::basic_ostream<charT,traits> & os, quaternion<T> const & q) { ::std::basic_ostringstream<charT,traits> s; s.flags(os.flags()); s.imbue(os.getloc()); s.precision(os.precision()); s << '(' << q.R_component_1() << ',' << q.R_component_2() << ',' << q.R_component_3() << ',' << q.R_component_4() << ')'; return os << s.str(); }