ecency-mobile/ios/Pods/boost-for-react-native/boost/qvm/gen/vec_operations2.hpp

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//Copyright (c) 2008-2016 Emil Dotchevski and Reverge Studios, Inc.
//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)
#ifndef BOOST_QVM_5DD4CBFC96F5453B13D89A1CDBAE32
#define BOOST_QVM_5DD4CBFC96F5453B13D89A1CDBAE32
//This file was generated by a program. Do not edit manually.
#include <boost/qvm/deduce_scalar.hpp>
#include <boost/qvm/deduce_vec.hpp>
#include <boost/qvm/enable_if.hpp>
#include <boost/qvm/error.hpp>
#include <boost/qvm/inline.hpp>
#include <boost/qvm/math.hpp>
#include <boost/qvm/static_assert.hpp>
#include <boost/qvm/throw_exception.hpp>
#include <boost/qvm/vec_traits.hpp>
namespace
boost
{
namespace
qvm
{
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename lazy_enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
deduce_vec2<A,B,2> >::type
operator+( A const & a, B const & b )
{
typedef typename deduce_vec2<A,B,2>::type R;
BOOST_QVM_STATIC_ASSERT(vec_traits<R>::dim==2);
R r;
vec_traits<R>::template write_element<0>(r)=vec_traits<A>::template read_element<0>(a)+vec_traits<B>::template read_element<0>(b);
vec_traits<R>::template write_element<1>(r)=vec_traits<A>::template read_element<1>(a)+vec_traits<B>::template read_element<1>(b);
return r;
}
namespace
sfinae
{
using ::boost::qvm::operator+;
}
namespace
qvm_detail
{
template <int D>
struct plus_vv_defined;
template <>
struct
plus_vv_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename lazy_enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
deduce_vec2<A,B,2> >::type
operator-( A const & a, B const & b )
{
typedef typename deduce_vec2<A,B,2>::type R;
BOOST_QVM_STATIC_ASSERT(vec_traits<R>::dim==2);
R r;
vec_traits<R>::template write_element<0>(r)=vec_traits<A>::template read_element<0>(a)-vec_traits<B>::template read_element<0>(b);
vec_traits<R>::template write_element<1>(r)=vec_traits<A>::template read_element<1>(a)-vec_traits<B>::template read_element<1>(b);
return r;
}
namespace
sfinae
{
using ::boost::qvm::operator-;
}
namespace
qvm_detail
{
template <int D>
struct minus_vv_defined;
template <>
struct
minus_vv_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
A &>::type
operator+=( A & a, B const & b )
{
vec_traits<A>::template write_element<0>(a)+=vec_traits<B>::template read_element<0>(b);
vec_traits<A>::template write_element<1>(a)+=vec_traits<B>::template read_element<1>(b);
return a;
}
namespace
sfinae
{
using ::boost::qvm::operator+=;
}
namespace
qvm_detail
{
template <int D>
struct plus_eq_vv_defined;
template <>
struct
plus_eq_vv_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
A &>::type
operator-=( A & a, B const & b )
{
vec_traits<A>::template write_element<0>(a)-=vec_traits<B>::template read_element<0>(b);
vec_traits<A>::template write_element<1>(a)-=vec_traits<B>::template read_element<1>(b);
return a;
}
namespace
sfinae
{
using ::boost::qvm::operator-=;
}
namespace
qvm_detail
{
template <int D>
struct minus_eq_vv_defined;
template <>
struct
minus_eq_vv_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename lazy_enable_if_c<
vec_traits<A>::dim==2 && is_scalar<B>::value,
deduce_vec<A> >::type
operator*( A const & a, B b )
{
typedef typename deduce_vec<A>::type R;
R r;
vec_traits<R>::template write_element<0>(r)=vec_traits<A>::template read_element<0>(a)*b;
vec_traits<R>::template write_element<1>(r)=vec_traits<A>::template read_element<1>(a)*b;
return r;
}
namespace
sfinae
{
using ::boost::qvm::operator*;
}
namespace
qvm_detail
{
template <int D>
struct mul_vs_defined;
template <>
struct
mul_vs_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2 && is_scalar<B>::value,
A &>::type
operator*=( A & a, B b )
{
vec_traits<A>::template write_element<0>(a)*=b;
vec_traits<A>::template write_element<1>(a)*=b;
return a;
}
namespace
sfinae
{
using ::boost::qvm::operator*=;
}
namespace
qvm_detail
{
template <int D>
struct mul_eq_vs_defined;
template <>
struct
mul_eq_vs_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename lazy_enable_if_c<
vec_traits<A>::dim==2 && is_scalar<B>::value,
deduce_vec<A> >::type
operator/( A const & a, B b )
{
typedef typename deduce_vec<A>::type R;
R r;
vec_traits<R>::template write_element<0>(r)=vec_traits<A>::template read_element<0>(a)/b;
vec_traits<R>::template write_element<1>(r)=vec_traits<A>::template read_element<1>(a)/b;
return r;
}
namespace
sfinae
{
using ::boost::qvm::operator/;
}
namespace
qvm_detail
{
template <int D>
struct div_vs_defined;
template <>
struct
div_vs_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2 && is_scalar<B>::value,
A &>::type
operator/=( A & a, B b )
{
vec_traits<A>::template write_element<0>(a)/=b;
vec_traits<A>::template write_element<1>(a)/=b;
return a;
}
namespace
sfinae
{
using ::boost::qvm::operator/=;
}
namespace
qvm_detail
{
template <int D>
struct div_eq_vs_defined;
template <>
struct
div_eq_vs_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
A &>::type
assign( A & a, B const & b )
{
vec_traits<A>::template write_element<0>(a)=vec_traits<B>::template read_element<0>(b);
vec_traits<A>::template write_element<1>(a)=vec_traits<B>::template read_element<1>(b);
return a;
}
namespace
sfinae
{
using ::boost::qvm::assign;
}
namespace
qvm_detail
{
template <int D>
struct assign_vv_defined;
template <>
struct
assign_vv_defined<2>
{
static bool const value=true;
};
}
template <class R,class A>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
is_vec<A>::value &&
vec_traits<R>::dim==2 && vec_traits<A>::dim==2,
R>::type
convert_to( A const & a )
{
R r;
vec_traits<R>::template write_element<0>(r)=vec_traits<A>::template read_element<0>(a);
vec_traits<R>::template write_element<1>(r)=vec_traits<A>::template read_element<1>(a);
return r;
}
namespace
sfinae
{
using ::boost::qvm::convert_to;
}
namespace
qvm_detail
{
template <int D>
struct convert_to_v_defined;
template <>
struct
convert_to_v_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
bool>::type
operator==( A const & a, B const & b )
{
return
vec_traits<A>::template read_element<0>(a)==vec_traits<B>::template read_element<0>(b) &&
vec_traits<A>::template read_element<1>(a)==vec_traits<B>::template read_element<1>(b);
}
namespace
sfinae
{
using ::boost::qvm::operator==;
}
namespace
qvm_detail
{
template <int D>
struct eq_vv_defined;
template <>
struct
eq_vv_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
bool>::type
operator!=( A const & a, B const & b )
{
return
!(vec_traits<A>::template read_element<0>(a)==vec_traits<B>::template read_element<0>(b)) ||
!(vec_traits<A>::template read_element<1>(a)==vec_traits<B>::template read_element<1>(b));
}
namespace
sfinae
{
using ::boost::qvm::operator!=;
}
namespace
qvm_detail
{
template <int D>
struct neq_vv_defined;
template <>
struct
neq_vv_defined<2>
{
static bool const value=true;
};
}
template <class A>
BOOST_QVM_INLINE_OPERATIONS
typename lazy_enable_if_c<
vec_traits<A>::dim==2,
deduce_vec<A> >::type
operator-( A const & a )
{
typedef typename deduce_vec<A>::type R;
R r;
vec_traits<R>::template write_element<0>(r)=-vec_traits<A>::template read_element<0>(a);
vec_traits<R>::template write_element<1>(r)=-vec_traits<A>::template read_element<1>(a);
return r;
}
namespace
sfinae
{
using ::boost::qvm::operator-;
}
namespace
qvm_detail
{
template <int D>
struct minus_v_defined;
template <>
struct
minus_v_defined<2>
{
static bool const value=true;
};
}
template <class A>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
is_vec<A>::value && vec_traits<A>::dim==2,
typename vec_traits<A>::scalar_type>::type
mag( A const & a )
{
typedef typename vec_traits<A>::scalar_type T;
T const a0=vec_traits<A>::template read_element<0>(a);
T const a1=vec_traits<A>::template read_element<1>(a);
T const m2=a0*a0+a1*a1;
T const mag=sqrt<T>(m2);
return mag;
}
namespace
sfinae
{
using ::boost::qvm::mag;
}
namespace
qvm_detail
{
template <int D>
struct mag_v_defined;
template <>
struct
mag_v_defined<2>
{
static bool const value=true;
};
}
template <class A>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
is_vec<A>::value && vec_traits<A>::dim==2,
typename vec_traits<A>::scalar_type>::type
mag_sqr( A const & a )
{
typedef typename vec_traits<A>::scalar_type T;
T const a0=vec_traits<A>::template read_element<0>(a);
T const a1=vec_traits<A>::template read_element<1>(a);
T const m2=a0*a0+a1*a1;
return m2;
}
namespace
sfinae
{
using ::boost::qvm::mag_sqr;
}
namespace
qvm_detail
{
template <int D>
struct mag_sqr_v_defined;
template <>
struct
mag_sqr_v_defined<2>
{
static bool const value=true;
};
}
template <class A>
BOOST_QVM_INLINE_OPERATIONS
typename lazy_enable_if_c<
vec_traits<A>::dim==2,
deduce_vec<A> >::type
normalized( A const & a )
{
typedef typename vec_traits<A>::scalar_type T;
T const a0=vec_traits<A>::template read_element<0>(a);
T const a1=vec_traits<A>::template read_element<1>(a);
T const m2=a0*a0+a1*a1;
if( m2==scalar_traits<typename vec_traits<A>::scalar_type>::value(0) )
BOOST_QVM_THROW_EXCEPTION(zero_magnitude_error());
T const rm=scalar_traits<T>::value(1)/sqrt<T>(m2);
typedef typename deduce_vec<A>::type R;
R r;
vec_traits<R>::template write_element<0>(r)=a0*rm;
vec_traits<R>::template write_element<1>(r)=a1*rm;
return r;
}
namespace
sfinae
{
using ::boost::qvm::normalized;
}
template <class A>
BOOST_QVM_INLINE_OPERATIONS
typename enable_if_c<
vec_traits<A>::dim==2,
void>::type
normalize( A & a )
{
typedef typename vec_traits<A>::scalar_type T;
T const a0=vec_traits<A>::template read_element<0>(a);
T const a1=vec_traits<A>::template read_element<1>(a);
T const m2=a0*a0+a1*a1;
if( m2==scalar_traits<typename vec_traits<A>::scalar_type>::value(0) )
BOOST_QVM_THROW_EXCEPTION(zero_magnitude_error());
T const rm=scalar_traits<T>::value(1)/sqrt<T>(m2);
vec_traits<A>::template write_element<0>(a)*=rm;
vec_traits<A>::template write_element<1>(a)*=rm;
}
namespace
sfinae
{
using ::boost::qvm::normalize;
}
namespace
qvm_detail
{
template <int D>
struct normalize_v_defined;
template <>
struct
normalize_v_defined<2>
{
static bool const value=true;
};
}
template <class A,class B>
BOOST_QVM_INLINE_OPERATIONS
typename lazy_enable_if_c<
vec_traits<A>::dim==2 && vec_traits<B>::dim==2,
deduce_scalar<typename vec_traits<A>::scalar_type,typename vec_traits<B>::scalar_type> >::type
dot( A const & a, B const & b )
{
typedef typename vec_traits<A>::scalar_type Ta;
typedef typename vec_traits<B>::scalar_type Tb;
typedef typename deduce_scalar<Ta,Tb>::type Tr;
Ta const a0=vec_traits<A>::template read_element<0>(a);
Ta const a1=vec_traits<A>::template read_element<1>(a);
Tb const b0=vec_traits<B>::template read_element<0>(b);
Tb const b1=vec_traits<B>::template read_element<1>(b);
Tr const dot=a0*b0+a1*b1;
return dot;
}
namespace
sfinae
{
using ::boost::qvm::dot;
}
namespace
qvm_detail
{
template <int D>
struct dot_vv_defined;
template <>
struct
dot_vv_defined<2>
{
static bool const value=true;
};
}
}
}
#endif