490e837f7a
.../
... + -- EO
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+-- src ----- + -- EDO
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+-- test + -- MO
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+-- tutorial + -- MOEO
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+-- doc + -- SMP
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... + -- EOMPI
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+ -- EOSERIAL
Question for current maintainers: ./README: new release?
Also:
* Moving out eompi & eoserial modules (issue #2).
* Correction of the errors when executing "make doc" command.
* Adding a solution for the conflicting headers problem (see the two CMake Cache
Values: PROJECT_TAG & PROJECT_HRS_INSTALL_SUBPATH) (issue #1)
* Header inclusions:
** src: changing absolute paths into relative paths ('#include <...>' -> '#include "..."')
** test, tutorial: changing relative paths into absolute paths ('#include "..."' -> '#include <...>')
* Moving out some scripts from EDO -> to the root
* Add a new script for compilation and installation (see build_gcc_linux_install)
* Compilation with uBLAS library or EDO module: now ok
* Minor modifications on README & INSTALL files
* Comment eompi failed tests with no end
*** TODO: CPack (debian (DEB) & RedHat (RPM) packages) (issues #6 & #7) ***
140 lines
5.1 KiB
C++
Executable file
140 lines
5.1 KiB
C++
Executable file
/* Boost interval/rounded_transc.hpp template implementation file
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*
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* Copyright 2002-2003 Hervé Brönnimann, Guillaume Melquiond, Sylvain Pion
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*
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* Distributed under the Boost Software License, Version 1.0.
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* (See accompanying file LICENSE_1_0.txt or
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* copy at http://www.boost.org/LICENSE_1_0.txt)
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*/
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#ifndef BOOST_NUMERIC_INTERVAL_ROUNDED_TRANSC_HPP
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#define BOOST_NUMERIC_INTERVAL_ROUNDED_TRANSC_HPP
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#include <boost/numeric/interval/rounding.hpp>
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#include <boost/numeric/interval/detail/bugs.hpp>
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#include <cmath>
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namespace boost {
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namespace numeric {
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namespace interval_lib {
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template<class T, class Rounding>
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struct rounded_transc_exact: Rounding
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{
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) { BOOST_NUMERIC_INTERVAL_using_math(f); return f(x); } \
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T f##_up (const T& x) { BOOST_NUMERIC_INTERVAL_using_math(f); return f(x); }
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BOOST_NUMERIC_INTERVAL_new_func(exp)
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BOOST_NUMERIC_INTERVAL_new_func(log)
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BOOST_NUMERIC_INTERVAL_new_func(sin)
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BOOST_NUMERIC_INTERVAL_new_func(cos)
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BOOST_NUMERIC_INTERVAL_new_func(tan)
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BOOST_NUMERIC_INTERVAL_new_func(asin)
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BOOST_NUMERIC_INTERVAL_new_func(acos)
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BOOST_NUMERIC_INTERVAL_new_func(atan)
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BOOST_NUMERIC_INTERVAL_new_func(sinh)
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BOOST_NUMERIC_INTERVAL_new_func(cosh)
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BOOST_NUMERIC_INTERVAL_new_func(tanh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) { BOOST_NUMERIC_INTERVAL_using_ahyp(f); return f(x); } \
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T f##_up (const T& x) { BOOST_NUMERIC_INTERVAL_using_ahyp(f); return f(x); }
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BOOST_NUMERIC_INTERVAL_new_func(asinh)
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BOOST_NUMERIC_INTERVAL_new_func(acosh)
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BOOST_NUMERIC_INTERVAL_new_func(atanh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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};
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template<class T, class Rounding>
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struct rounded_transc_std: Rounding
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{
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_math(f); \
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this->downward(); return this->force_rounding(f(x)); } \
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T f##_up (const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_math(f); \
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this->upward(); return this->force_rounding(f(x)); }
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BOOST_NUMERIC_INTERVAL_new_func(exp)
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BOOST_NUMERIC_INTERVAL_new_func(log)
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BOOST_NUMERIC_INTERVAL_new_func(sin)
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BOOST_NUMERIC_INTERVAL_new_func(cos)
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BOOST_NUMERIC_INTERVAL_new_func(tan)
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BOOST_NUMERIC_INTERVAL_new_func(asin)
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BOOST_NUMERIC_INTERVAL_new_func(acos)
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BOOST_NUMERIC_INTERVAL_new_func(atan)
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BOOST_NUMERIC_INTERVAL_new_func(sinh)
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BOOST_NUMERIC_INTERVAL_new_func(cosh)
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BOOST_NUMERIC_INTERVAL_new_func(tanh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_ahyp(f); \
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this->downward(); return this->force_rounding(f(x)); } \
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T f##_up (const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_ahyp(f); \
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this->upward(); return this->force_rounding(f(x)); }
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BOOST_NUMERIC_INTERVAL_new_func(asinh)
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BOOST_NUMERIC_INTERVAL_new_func(acosh)
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BOOST_NUMERIC_INTERVAL_new_func(atanh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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};
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template<class T, class Rounding>
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struct rounded_transc_opp: Rounding
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{
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_math(f); \
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this->downward(); T y = this->force_rounding(f(x)); \
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this->upward(); return y; } \
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T f##_up (const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_math(f); \
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return this->force_rounding(f(x)); }
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BOOST_NUMERIC_INTERVAL_new_func(exp)
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BOOST_NUMERIC_INTERVAL_new_func(log)
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BOOST_NUMERIC_INTERVAL_new_func(cos)
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BOOST_NUMERIC_INTERVAL_new_func(acos)
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BOOST_NUMERIC_INTERVAL_new_func(cosh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_math(f); \
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return -this->force_rounding(-f(x)); } \
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T f##_up (const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_math(f); \
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return this->force_rounding(f(x)); }
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BOOST_NUMERIC_INTERVAL_new_func(sin)
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BOOST_NUMERIC_INTERVAL_new_func(tan)
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BOOST_NUMERIC_INTERVAL_new_func(asin)
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BOOST_NUMERIC_INTERVAL_new_func(atan)
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BOOST_NUMERIC_INTERVAL_new_func(sinh)
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BOOST_NUMERIC_INTERVAL_new_func(tanh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_ahyp(f); \
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this->downward(); T y = this->force_rounding(f(x)); \
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this->upward(); return y; } \
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T f##_up (const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_ahyp(f); \
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return this->force_rounding(f(x)); }
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BOOST_NUMERIC_INTERVAL_new_func(asinh)
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BOOST_NUMERIC_INTERVAL_new_func(atanh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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# define BOOST_NUMERIC_INTERVAL_new_func(f) \
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T f##_down(const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_ahyp(f); \
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return -this->force_rounding(-f(x)); } \
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T f##_up (const T& x) \
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{ BOOST_NUMERIC_INTERVAL_using_ahyp(f); \
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return this->force_rounding(f(x)); }
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BOOST_NUMERIC_INTERVAL_new_func(acosh)
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# undef BOOST_NUMERIC_INTERVAL_new_func
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};
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} // namespace interval_lib
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} // namespace numeric
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} // namespace boost
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#endif // BOOST_NUMERIC_INTERVAL_ROUNDED_TRANSC_HPP
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