📄 bops.cc
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Multiply<int, double> > (d1, _bz_ArrayExprConstant<double>(d2));}// IndexPlaceholder<N_index1> * long doubletemplate<int N_index1>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<IndexPlaceholder<N_index1>, _bz_ArrayExprConstant<long double>, Multiply<int, long double > > >operator*(IndexPlaceholder<N_index1> d1, long double d2){ return _bz_ArrayExprBinaryOp<IndexPlaceholder<N_index1>, _bz_ArrayExprConstant<long double>, Multiply<int, long double> > (d1, _bz_ArrayExprConstant<long double>(d2));}#ifdef BZ_HAVE_COMPLEX// IndexPlaceholder<N_index1> * complex<T2>template<int N_index1, class T2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<IndexPlaceholder<N_index1>, _bz_ArrayExprConstant<complex<T2> > , Multiply<int, complex<T2> > > >operator*(IndexPlaceholder<N_index1> d1, complex<T2> d2){ return _bz_ArrayExprBinaryOp<IndexPlaceholder<N_index1>, _bz_ArrayExprConstant<complex<T2> > , Multiply<int, complex<T2> > > (d1, _bz_ArrayExprConstant<complex<T2> > (d2));}#endif // BZ_HAVE_COMPLEX// int * Array<T_numtype2, N_rank2>template<class T_numtype2, int N_rank2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<int>, ArrayIterator<T_numtype2, N_rank2>, Multiply<int, T_numtype2 > > >operator*(int d1, const Array<T_numtype2, N_rank2>& d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<int>, ArrayIterator<T_numtype2, N_rank2>, Multiply<int, T_numtype2> > (_bz_ArrayExprConstant<int>(d1), d2.begin());}// int * _bz_ArrayExpr<P_expr2>template<class P_expr2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<int>, _bz_ArrayExpr<P_expr2>, Multiply<int, typename P_expr2::T_numtype > > >operator*(int d1, _bz_ArrayExpr<P_expr2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<int>, _bz_ArrayExpr<P_expr2>, Multiply<int, typename P_expr2::T_numtype> > (_bz_ArrayExprConstant<int>(d1), d2);}// int * IndexPlaceholder<N_index2>template<int N_index2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<int>, IndexPlaceholder<N_index2>, Multiply<int, int > > >operator*(int d1, IndexPlaceholder<N_index2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<int>, IndexPlaceholder<N_index2>, Multiply<int, int> > (_bz_ArrayExprConstant<int>(d1), d2);}// float * Array<T_numtype2, N_rank2>template<class T_numtype2, int N_rank2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<float>, ArrayIterator<T_numtype2, N_rank2>, Multiply<float, T_numtype2 > > >operator*(float d1, const Array<T_numtype2, N_rank2>& d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<float>, ArrayIterator<T_numtype2, N_rank2>, Multiply<float, T_numtype2> > (_bz_ArrayExprConstant<float>(d1), d2.begin());}// float * _bz_ArrayExpr<P_expr2>template<class P_expr2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<float>, _bz_ArrayExpr<P_expr2>, Multiply<float, typename P_expr2::T_numtype > > >operator*(float d1, _bz_ArrayExpr<P_expr2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<float>, _bz_ArrayExpr<P_expr2>, Multiply<float, typename P_expr2::T_numtype> > (_bz_ArrayExprConstant<float>(d1), d2);}// float * IndexPlaceholder<N_index2>template<int N_index2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<float>, IndexPlaceholder<N_index2>, Multiply<float, int > > >operator*(float d1, IndexPlaceholder<N_index2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<float>, IndexPlaceholder<N_index2>, Multiply<float, int> > (_bz_ArrayExprConstant<float>(d1), d2);}// double * Array<T_numtype2, N_rank2>template<class T_numtype2, int N_rank2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<double>, ArrayIterator<T_numtype2, N_rank2>, Multiply<double, T_numtype2 > > >operator*(double d1, const Array<T_numtype2, N_rank2>& d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<double>, ArrayIterator<T_numtype2, N_rank2>, Multiply<double, T_numtype2> > (_bz_ArrayExprConstant<double>(d1), d2.begin());}// double * _bz_ArrayExpr<P_expr2>template<class P_expr2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<double>, _bz_ArrayExpr<P_expr2>, Multiply<double, typename P_expr2::T_numtype > > >operator*(double d1, _bz_ArrayExpr<P_expr2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<double>, _bz_ArrayExpr<P_expr2>, Multiply<double, typename P_expr2::T_numtype> > (_bz_ArrayExprConstant<double>(d1), d2);}// double * IndexPlaceholder<N_index2>template<int N_index2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<double>, IndexPlaceholder<N_index2>, Multiply<double, int > > >operator*(double d1, IndexPlaceholder<N_index2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<double>, IndexPlaceholder<N_index2>, Multiply<double, int> > (_bz_ArrayExprConstant<double>(d1), d2);}// long double * Array<T_numtype2, N_rank2>template<class T_numtype2, int N_rank2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<long double>, ArrayIterator<T_numtype2, N_rank2>, Multiply<long double, T_numtype2 > > >operator*(long double d1, const Array<T_numtype2, N_rank2>& d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<long double>, ArrayIterator<T_numtype2, N_rank2>, Multiply<long double, T_numtype2> > (_bz_ArrayExprConstant<long double>(d1), d2.begin());}// long double * _bz_ArrayExpr<P_expr2>template<class P_expr2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<long double>, _bz_ArrayExpr<P_expr2>, Multiply<long double, typename P_expr2::T_numtype > > >operator*(long double d1, _bz_ArrayExpr<P_expr2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<long double>, _bz_ArrayExpr<P_expr2>, Multiply<long double, typename P_expr2::T_numtype> > (_bz_ArrayExprConstant<long double>(d1), d2);}// long double * IndexPlaceholder<N_index2>template<int N_index2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<long double>, IndexPlaceholder<N_index2>, Multiply<long double, int > > >operator*(long double d1, IndexPlaceholder<N_index2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<long double>, IndexPlaceholder<N_index2>, Multiply<long double, int> > (_bz_ArrayExprConstant<long double>(d1), d2);}#ifdef BZ_HAVE_COMPLEX// complex<T1> * Array<T_numtype2, N_rank2>template<class T1, class T_numtype2, int N_rank2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<complex<T1> > , ArrayIterator<T_numtype2, N_rank2>, Multiply<complex<T1> , T_numtype2 > > >operator*(complex<T1> d1, const Array<T_numtype2, N_rank2>& d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<complex<T1> > , ArrayIterator<T_numtype2, N_rank2>, Multiply<complex<T1> , T_numtype2> > (_bz_ArrayExprConstant<complex<T1> > (d1), d2.begin());}#endif // BZ_HAVE_COMPLEX#ifdef BZ_HAVE_COMPLEX// complex<T1> * _bz_ArrayExpr<P_expr2>template<class T1, class P_expr2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<complex<T1> > , _bz_ArrayExpr<P_expr2>, Multiply<complex<T1> , typename P_expr2::T_numtype > > >operator*(complex<T1> d1, _bz_ArrayExpr<P_expr2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<complex<T1> > , _bz_ArrayExpr<P_expr2>, Multiply<complex<T1> , typename P_expr2::T_numtype> > (_bz_ArrayExprConstant<complex<T1> > (d1), d2);}#endif // BZ_HAVE_COMPLEX#ifdef BZ_HAVE_COMPLEX// complex<T1> * IndexPlaceholder<N_index2>template<class T1, int N_index2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<complex<T1> > , IndexPlaceholder<N_index2>, Multiply<complex<T1> , int > > >operator*(complex<T1> d1, IndexPlaceholder<N_index2> d2){ return _bz_ArrayExprBinaryOp<_bz_ArrayExprConstant<complex<T1> > , IndexPlaceholder<N_index2>, Multiply<complex<T1> , int> > (_bz_ArrayExprConstant<complex<T1> > (d1), d2);}#endif // BZ_HAVE_COMPLEX/**************************************************************************** * Division Operators ****************************************************************************/// Array<T_numtype1, N_rank1> / Array<T_numtype2, N_rank2>template<class T_numtype1, int N_rank1, class T_numtype2, int N_rank2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, ArrayIterator<T_numtype2, N_rank2>, Divide<T_numtype1, T_numtype2 > > >operator/(const Array<T_numtype1, N_rank1>& d1, const Array<T_numtype2, N_rank2>& d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, ArrayIterator<T_numtype2, N_rank2>, Divide<T_numtype1, T_numtype2> > (d1.begin(), d2.begin());}// Array<T_numtype1, N_rank1> / _bz_ArrayExpr<P_expr2>template<class T_numtype1, int N_rank1, class P_expr2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExpr<P_expr2>, Divide<T_numtype1, typename P_expr2::T_numtype > > >operator/(const Array<T_numtype1, N_rank1>& d1, _bz_ArrayExpr<P_expr2> d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExpr<P_expr2>, Divide<T_numtype1, typename P_expr2::T_numtype> > (d1.begin(), d2);}// Array<T_numtype1, N_rank1> / IndexPlaceholder<N_index2>template<class T_numtype1, int N_rank1, int N_index2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, IndexPlaceholder<N_index2>, Divide<T_numtype1, int > > >operator/(const Array<T_numtype1, N_rank1>& d1, IndexPlaceholder<N_index2> d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, IndexPlaceholder<N_index2>, Divide<T_numtype1, int> > (d1.begin(), d2);}// Array<T_numtype1, N_rank1> / inttemplate<class T_numtype1, int N_rank1>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<int>, Divide<T_numtype1, int > > >operator/(const Array<T_numtype1, N_rank1>& d1, int d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<int>, Divide<T_numtype1, int> > (d1.begin(), _bz_ArrayExprConstant<int>(d2));}// Array<T_numtype1, N_rank1> / floattemplate<class T_numtype1, int N_rank1>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<float>, Divide<T_numtype1, float > > >operator/(const Array<T_numtype1, N_rank1>& d1, float d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<float>, Divide<T_numtype1, float> > (d1.begin(), _bz_ArrayExprConstant<float>(d2));}// Array<T_numtype1, N_rank1> / doubletemplate<class T_numtype1, int N_rank1>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<double>, Divide<T_numtype1, double > > >operator/(const Array<T_numtype1, N_rank1>& d1, double d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<double>, Divide<T_numtype1, double> > (d1.begin(), _bz_ArrayExprConstant<double>(d2));}// Array<T_numtype1, N_rank1> / long doubletemplate<class T_numtype1, int N_rank1>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<long double>, Divide<T_numtype1, long double > > >operator/(const Array<T_numtype1, N_rank1>& d1, long double d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<long double>, Divide<T_numtype1, long double> > (d1.begin(), _bz_ArrayExprConstant<long double>(d2));}#ifdef BZ_HAVE_COMPLEX// Array<T_numtype1, N_rank1> / complex<T2>template<class T_numtype1, int N_rank1, class T2>inline_bz_ArrayExpr<_bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<complex<T2> > , Divide<T_numtype1, complex<T2> > > >operator/(const Array<T_numtype1, N_rank1>& d1, complex<T2> d2){ return _bz_ArrayExprBinaryOp<ArrayIterator<T_numtype1, N_rank1>, _bz_ArrayExprConstant<complex<T2> > , Divide<T_numtype1, complex<T2> > > (d1.begin(), _bz_ArrayExprConstant<complex<T2> > (d2));}#en⌨️ 快捷键说明
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