/usr/include/blitz/array/newet-macros.h is in libblitz0-dev 1:0.10-3.3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/***************************************************************************
* blitz/array/newet-macros.h Macros for new e.t. implementation
*
* $Id$
*
* Copyright (C) 1997-2011 Todd Veldhuizen <tveldhui@acm.org>
*
* This file is a part of Blitz.
*
* Blitz is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation, either version 3
* of the License, or (at your option) any later version.
*
* Blitz is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with Blitz. If not, see <http://www.gnu.org/licenses/>.
*
* Suggestions: blitz-devel@lists.sourceforge.net
* Bugs: blitz-support@lists.sourceforge.net
*
* For more information, please see the Blitz++ Home Page:
* https://sourceforge.net/projects/blitz/
*
****************************************************************************/
#ifndef BZ_NEWET_MACROS_H
#define BZ_NEWET_MACROS_H
#include <blitz/array/asexpr.h>
BZ_NAMESPACE(blitz)
#ifdef BZ_HAVE_TEMPLATES_AS_TEMPLATE_ARGUMENTS
/*
* Unary functions and operators
*/
#define BZ_DECLARE_ARRAY_ET_UNARY(name,functor) \
\
template <typename T1> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzUnaryExprResult)<functor,T1>::T_result \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzUnaryExprResult)<functor,T1>::T_result result; \
return result(BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap())); \
}
/*
* Array expression templates: the macro BZ_DECLARE_ARRAY_ET_BINARY(X,Y)
* declares a function or operator which takes two operands.
* X is the function name (or operator), and Y is the functor object
* which implements the operation.
*/
#define BZ_DECLARE_ARRAY_ET_BINARY(name, applic) \
\
template <typename T1,typename T2> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,T1,T2>::T_result \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(ETBase)<T2>& d2) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,T1,T2>::T_result result; \
return result(BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d2.unwrap())); \
}
#define BZ_DECLARE_ARRAY_ET_BINARY_TINYVEC(name, applic) \
\
template <typename T1, typename T2, int N> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic, \
BZ_BLITZ_SCOPE(TinyVector)<T2,N>,T1>::T_result \
name(const BZ_BLITZ_SCOPE(TinyVector)<T2,N> d1, \
const BZ_BLITZ_SCOPE(ETBase)<T1>& d2) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic, \
BZ_BLITZ_SCOPE(TinyVector)<T2,N>,T1>::T_result result; \
return result(BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::getExpr(d1), \
BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d2.unwrap())); \
} \
\
template <typename T1, typename T2, int N> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,T1, \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::T_result \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(TinyVector)<T2,N> d2) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,T1, \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::T_result result; \
return result(BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::getExpr(d2)); \
}
#define BZ_DECLARE_ARRAY_ET_BINARY_SCALAR(name, applic, sca) \
\
template<typename T> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,sca,T>::T_result \
name(const sca d1, const BZ_BLITZ_SCOPE(ETBase)<T>& d2) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,sca,T>::T_result result; \
return result(BZ_BLITZ_SCOPE(asExpr)<sca >::getExpr(d1), \
BZ_BLITZ_SCOPE(asExpr)<T>::getExpr(d2.unwrap())); \
} \
\
template<typename T> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,T,sca >::T_result \
name(const BZ_BLITZ_SCOPE(ETBase)<T>& d1, const sca d2) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzBinaryExprResult)<applic,T,sca >::T_result result;\
return result(BZ_BLITZ_SCOPE(asExpr)<T>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<sca >::getExpr(d2)); \
}
/*
* Array expression templates: the macro BZ_DECLARE_ARRAY_ET_TERNARY(X,Y)
* declares a function or operator which takes three operands.
* X is the function name (or operator), and Y is the functor object
* which implements the operation.
*/
#define BZ_DECLARE_ARRAY_ET_TERNARY(name, applic) \
\
template <typename T1, typename T2, typename T3> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzTernaryExprResult)<applic, T1, T2, T3>::T_result \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(ETBase)<T2>& d2, \
const BZ_BLITZ_SCOPE(ETBase)<T3>& d3) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzTernaryExprResult)<applic,T1,T2,T3>::T_result \
result; \
return result(BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d2.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T3>::getExpr(d3.unwrap())); \
}
/*
* Array expression templates: the macro BZ_DECLARE_ARRAY_ET_QUATERNARY(X,Y)
* declares a function or operator which takes four operands.
* X is the function name (or operator), and Y is the functor object
* which implements the operation.
*/
#define BZ_DECLARE_ARRAY_ET_QUATERNARY(name, applic) \
\
template <typename T1, typename T2, typename T3, typename T4> \
_bz_inline_et \
typename BZ_BLITZ_SCOPE(BzQuaternaryExprResult)<applic, T1, T2, T3, T4>::T_result \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(ETBase)<T2>& d2, \
const BZ_BLITZ_SCOPE(ETBase)<T3>& d3, \
const BZ_BLITZ_SCOPE(ETBase)<T4>& d4) \
{ \
typedef typename \
BZ_BLITZ_SCOPE(BzQuaternaryExprResult)<applic,T1,T2,T3, T4>::T_result \
result; \
return result(BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d2.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T3>::getExpr(d3.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T4>::getExpr(d4.unwrap())); \
}
#else /* !BZ_HAVE_TEMPLATES_AS_TEMPLATE_ARGUMENTS */
/*
* Unary functions and operators
*/
#define BZ_DECLARE_ARRAY_ET_UNARY(name, functor) \
\
template<typename T1> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExpr)<BZ_BLITZ_SCOPE(_bz_ArrayExprUnaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
functor<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype> > >\
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExpr)< \
BZ_BLITZ_SCOPE(_bz_ArrayExprUnaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
functor<_bz_typename \
BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype> > >( \
BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap())); \
}
/*
* Array expression templates: the macro BZ_DECLARE_ARRAY_ET_BINARY(X,Y)
* declares a function or operator which takes two operands.
* X is the function name (or operator), and Y is the functor object
* which implements the operation.
*/
#define BZ_DECLARE_ARRAY_ET_BINARY(name, applic) \
\
template<typename T1, typename T2> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExpr)<BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr::T_numtype> > > \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(ETBase)<T2>& d2) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExpr)< \
BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr::T_numtype> > >( \
BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d2.unwrap())); \
}
#define BZ_DECLARE_ARRAY_ET_BINARY_TINYVEC(name, applic) \
\
template <typename T1, typename T2, int N> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
applic<BZ_BLITZ_SCOPE(TinyVector)<T2,N>, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype> > \
name(const BZ_BLITZ_SCOPE(TinyVector)<T2,N> d1, \
const BZ_BLITZ_SCOPE(ETBase)<T1>& d2) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
applic<BZ_BLITZ_SCOPE(TinyVector)<T2,N>, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype> >( \
BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::getExpr(d1), \
BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d2.unwrap())); \
} \
\
template <typename T1, typename T2, int N> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> > > \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(TinyVector)<T2,N> d2) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> > >( \
BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)< \
BZ_BLITZ_SCOPE(TinyVector)<T2,N> >::getExpr(d2)); \
}
#define BZ_DECLARE_ARRAY_ET_BINARY_SCALAR(name, applic, sca) \
\
template<typename T> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
BZ_BLITZ_SCOPE(asExpr)<sca >::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr, \
applic<sca,_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr::T_numtype> >\
name(const sca d1, const BZ_BLITZ_SCOPE(ETBase)<T>& d2) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
BZ_BLITZ_SCOPE(asExpr)<sca >::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr, \
applic<sca, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr::T_numtype> >( \
BZ_BLITZ_SCOPE(asExpr)<sca >::getExpr(d1), \
BZ_BLITZ_SCOPE(asExpr)<T>::getExpr(d2.unwrap())); \
} \
\
template<typename T> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr, \
BZ_BLITZ_SCOPE(asExpr)<sca >::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr::T_numtype, \
sca > > \
name(const BZ_BLITZ_SCOPE(ETBase)<T>& d1, const sca d2) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr, \
BZ_BLITZ_SCOPE(asExpr)<sca >::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T>::T_expr::T_numtype, \
sca > >( \
BZ_BLITZ_SCOPE(asExpr)<T>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<sca >::getExpr(d2)); \
}
/*
* Array expression templates: the macro BZ_DECLARE_ARRAY_ET_TERNARY(X,Y)
* declares a function or operator which takes three operands.
* X is the function name (or operator), and Y is the functor object
* which implements the operation.
*/
#define BZ_DECLARE_ARRAY_ET_TERNARY(name, applic) \
\
template<typename T1, typename T2, typename T3> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExpr)<BZ_BLITZ_SCOPE(_bz_ArrayExprTernaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T3>::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T3>::T_expr::T_numtype> > > \
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(ETBase)<T2>& d2, \
const BZ_BLITZ_SCOPE(ETBase)<T3>& d3) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExpr)< \
BZ_BLITZ_SCOPE(_bz_ArrayExprTernaryOp)< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T3>::T_expr, \
applic<_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T3>::T_expr::T_numtype> > >( \
BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d2.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T3>::getExpr(d3.unwrap())); \
}
/*
* Array expression templates: the macro BZ_DECLARE_ARRAY_ET_BINARY(X,Y)
* declares a function or operator which takes two operands.
* X is the function name (or operator), and Y is the functor object
* which implements the operation.
*/
#define BZ_DECLARE_ARRAY_ET_QUATERNARY(name, functor) \
\
template<typename T1, typename T2, typename T3,typename T4> \
_bz_inline_et \
BZ_BLITZ_SCOPE(_bz_ArrayExpr) \
< \
BZ_BLITZ_SCOPE(_bz_ArrayExprQuaternaryOp) \
< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T3>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T4>::T_expr, \
functor< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T3>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T4>::T_expr::T_numtype \
> > > \
\
name(const BZ_BLITZ_SCOPE(ETBase)<T1>& d1, \
const BZ_BLITZ_SCOPE(ETBase)<T2>& d2, \
const BZ_BLITZ_SCOPE(ETBase)<T3>& d3, \
const BZ_BLITZ_SCOPE(ETBase)<T4>& d4) \
{ \
return BZ_BLITZ_SCOPE(_bz_ArrayExpr) \
< \
BZ_BLITZ_SCOPE(_bz_ArrayExprBinaryOp) \
< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr, \
functor \
< \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T1>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T2>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T3>::T_expr::T_numtype, \
_bz_typename BZ_BLITZ_SCOPE(asExpr)<T4>::T_expr::T_numtype \
> > > \
( \
BZ_BLITZ_SCOPE(asExpr)<T1>::getExpr(d1.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d2.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d3.unwrap()), \
BZ_BLITZ_SCOPE(asExpr)<T2>::getExpr(d4.unwrap())); \
}
#endif /* BZ_HAVE_TEMPLATES_AS_TEMPLATE_ARGUMENTS */
/*
* User-defined expression template routines
*/
#define BZ_DECLARE_FUNCTION(name) \
BZ_DEFINE_UNARY_FUNC(name ## _impl,name,true) \
BZ_DECLARE_ARRAY_ET_UNARY(name,name ## _impl)
#define BZ_DECLARE_FUNCTION_RET(name,return_type) \
BZ_DEFINE_UNARY_FUNC_RET(name ## _impl,name,return_type) \
BZ_DECLARE_ARRAY_ET_UNARY(name,name ## _impl)
#define BZ_DECLARE_FUNCTION2(name) \
BZ_DEFINE_BINARY_FUNC(name ## _impl,name) \
BZ_DECLARE_ARRAY_ET_BINARY(name, name ## _impl)
#define BZ_DECLARE_FUNCTION2_RET(name,return_type) \
BZ_DEFINE_BINARY_FUNC_RET(name ## _impl,name,return_type) \
BZ_DECLARE_ARRAY_ET_BINARY(name, name ## _impl)
#define BZ_DECLARE_FUNCTION2_SCALAR(name, sca) \
BZ_DECLARE_ARRAY_ET_BINARY_SCALAR(name, name ## _impl, sca)
#define BZ_DECLARE_FUNCTION3(name) \
BZ_DEFINE_TERNARY_FUNC(name ## _impl,name) \
BZ_DECLARE_ARRAY_ET_TERNARY(name, name ## _impl)
#define BZ_DECLARE_FUNCTION3_RET(name,return_type) \
BZ_DEFINE_TERNARY_FUNC_RET(name ## _impl,name,return_type) \
BZ_DECLARE_ARRAY_ET_TERNARY(name, name ## _impl)
#define BZ_DECLARE_FUNCTION4(name) \
BZ_DEFINE_QUATERNARY_FUNC(name ## _impl,name) \
BZ_DECLARE_ARRAY_ET_QUATERNARY(name, name ## _impl)
BZ_NAMESPACE_END
#endif
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