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/* NNC_Polyhedron class implementation: inline functions.
Copyright (C) 2001-2010 Roberto Bagnara <bagnara@cs.unipr.it>
Copyright (C) 2010-2016 BUGSENG srl (http://bugseng.com)
This file is part of the Parma Polyhedra Library (PPL).
The PPL is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3 of the License, or (at your
option) any later version.
The PPL 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 General Public License
for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111-1307, USA.
For the most up-to-date information see the Parma Polyhedra Library
site: http://bugseng.com/products/ppl/ . */
#ifndef PPL_NNC_Polyhedron_inlines_hh
#define PPL_NNC_Polyhedron_inlines_hh 1
#include "C_Polyhedron_defs.hh"
namespace Parma_Polyhedra_Library {
inline
NNC_Polyhedron::~NNC_Polyhedron() {
}
inline
NNC_Polyhedron::NNC_Polyhedron(dimension_type num_dimensions,
Degenerate_Element kind)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_space_dimension_overflow(num_dimensions,
NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(n, k)",
"n exceeds the maximum "
"allowed space dimension"),
kind) {
}
inline
NNC_Polyhedron::NNC_Polyhedron(const Constraint_System& cs)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_obj_space_dimension_overflow(cs, NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(cs)",
"the space dimension of cs "
"exceeds the maximum allowed "
"space dimension")) {
}
inline
NNC_Polyhedron::NNC_Polyhedron(Constraint_System& cs, Recycle_Input)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_obj_space_dimension_overflow(cs, NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(cs, recycle)",
"the space dimension of cs "
"exceeds the maximum allowed "
"space dimension"),
Recycle_Input()) {
}
inline
NNC_Polyhedron::NNC_Polyhedron(const Generator_System& gs)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_obj_space_dimension_overflow(gs, NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(gs)",
"the space dimension of gs "
"exceeds the maximum allowed "
"space dimension")) {
}
inline
NNC_Polyhedron::NNC_Polyhedron(Generator_System& gs, Recycle_Input)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_obj_space_dimension_overflow(gs, NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(gs, recycle)",
"the space dimension of gs "
"exceeds the maximum allowed "
"space dimension"),
Recycle_Input()) {
}
template <typename Interval>
inline
NNC_Polyhedron::NNC_Polyhedron(const Box<Interval>& box, Complexity_Class)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_obj_space_dimension_overflow(box, NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(box)",
"the space dimension of box "
"exceeds the maximum allowed "
"space dimension")) {
}
template <typename U>
inline
NNC_Polyhedron::NNC_Polyhedron(const BD_Shape<U>& bd, Complexity_Class)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_space_dimension_overflow(bd.space_dimension(),
NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(bd)",
"the space dimension of bd "
"exceeds the maximum allowed "
"space dimension"),
UNIVERSE) {
add_constraints(bd.constraints());
}
template <typename U>
inline
NNC_Polyhedron::NNC_Polyhedron(const Octagonal_Shape<U>& os, Complexity_Class)
: Polyhedron(NOT_NECESSARILY_CLOSED,
check_space_dimension_overflow(os.space_dimension(),
NOT_NECESSARILY_CLOSED,
"NNC_Polyhedron(os)",
"the space dimension of os "
"exceeds the maximum allowed "
"space dimension"),
UNIVERSE) {
add_constraints(os.constraints());
}
inline
NNC_Polyhedron::NNC_Polyhedron(const NNC_Polyhedron& y, Complexity_Class)
: Polyhedron(y) {
}
inline NNC_Polyhedron&
NNC_Polyhedron::operator=(const NNC_Polyhedron& y) {
Polyhedron::operator=(y);
return *this;
}
inline NNC_Polyhedron&
NNC_Polyhedron::operator=(const C_Polyhedron& y) {
NNC_Polyhedron nnc_y(y);
m_swap(nnc_y);
return *this;
}
inline bool
NNC_Polyhedron::upper_bound_assign_if_exact(const NNC_Polyhedron& y) {
return poly_hull_assign_if_exact(y);
}
inline void
NNC_Polyhedron::positive_time_elapse_assign(const Polyhedron& y) {
Polyhedron::positive_time_elapse_assign_impl(y);
}
} // namespace Parma_Polyhedra_Library
#endif // !defined(PPL_NNC_Polyhedron_inlines_hh)
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