dust3d/thirdparty/cgal/CGAL-5.1/include/CGAL/Uncertain.h

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// Copyright (c) 2005-2008 INRIA Sophia-Antipolis (France).
// All rights reserved.
//
// This file is part of CGAL (www.cgal.org)
//
// $URL: https://github.com/CGAL/cgal/blob/v5.1/STL_Extension/include/CGAL/Uncertain.h $
// $Id: Uncertain.h 3302086 2020-06-13T23:41:39+05:30 Abhay Raj Singh
// SPDX-License-Identifier: LGPL-3.0-or-later OR LicenseRef-Commercial
//
// Author(s) : Sylvain Pion
#ifndef CGAL_UNCERTAIN_H
#define CGAL_UNCERTAIN_H
#include <CGAL/config.h>
#include <CGAL/assertions.h>
#include <CGAL/enum.h>
#include <CGAL/Profile_counter.h>
#include <stdexcept>
#include <typeinfo>
namespace CGAL {
namespace internal {
// Accessory traits class to provide min and max value of a type.
// Specialized for bool and CGAL's enums.
template < typename T >
struct Minmax_traits;
template <>
struct Minmax_traits <bool>
{
static const bool min = false;
static const bool max = true;
};
template <>
struct Minmax_traits <Sign>
{
static const Sign min = NEGATIVE;
static const Sign max = POSITIVE;
};
template <>
struct Minmax_traits <Bounded_side>
{
static const Bounded_side min = ON_UNBOUNDED_SIDE;
static const Bounded_side max = ON_BOUNDED_SIDE;
};
template <>
struct Minmax_traits <Angle>
{
static const Angle min = OBTUSE;
static const Angle max = ACUTE;
};
} // namespace internal
// Exception type for the automatic conversion.
class Uncertain_conversion_exception
: public std::range_error
{
public:
Uncertain_conversion_exception(const std::string &s)
: std::range_error(s) {}
};
// Encodes a range [inf,sup] of values of type T.
// T can be enums or bool.
template < typename T >
class Uncertain
{
T _i, _s;
public:
typedef T value_type;
typedef CGAL::Uncertain_conversion_exception Uncertain_conversion_exception;
Uncertain()
: _i(), _s() {}
Uncertain(T t)
: _i(t), _s(t) {}
Uncertain(T i, T s)
: _i(i), _s(s) { CGAL_precondition(i <= s); }
Uncertain& operator=(T t)
{
_i = _s = t;
return *this;
}
T inf() const { return _i; }
T sup() const { return _s; }
bool is_same(Uncertain u) const { return _i == u._i && _s == u._s; }
bool is_certain() const { return _i == _s; }
T make_certain() const
{
if (is_certain())
return _i;
CGAL_PROFILER(std::string("Uncertain_conversion_exception thrown for CGAL::Uncertain< ")
+ typeid(T).name() + " >");
throw Uncertain_conversion_exception(
"Undecidable conversion of CGAL::Uncertain<T>");
}
#ifndef CGAL_NO_UNCERTAIN_CONVERSION_OPERATOR
// NB : the general conversion to bool might be too risky.
// boost::tribool uses a more restricted conversion (see below).
operator T() const
{
return make_certain();
}
#else
private:
struct dummy {
void nonnull() {};
};
typedef void (dummy::*safe_bool)();
public:
operator safe_bool() const
{
return make_certain() ? &dummy::nonnull : 0;
}
#endif
static Uncertain indeterminate();
};
// Access functions
// ----------------
template < typename T >
inline
T inf(Uncertain<T> i)
{
return i.inf();
}
template < typename T >
inline
T sup(Uncertain<T> i)
{
return i.sup();
}
// Basic functions
// ---------------
#if 1
// Commenting them out allows the test-suite to spot those predicates that do not
// propagate Uncertain-ty correctly. But they should probably be enabled
// for now, for backward-compatibility.
template < typename T >
inline
bool is_certain(T)
{
return true;
}
template < typename T >
inline
T get_certain(T t)
{
return t;
}
#endif
template < typename T >
inline
bool is_certain(Uncertain<T> a)
{
return a.is_certain();
}
template < typename T >
inline
T get_certain(Uncertain<T> a)
{
CGAL_assertion(is_certain(a));
return a.inf();
}
template < typename T >
inline
Uncertain<T>
Uncertain<T>::indeterminate()
{
return Uncertain<T>(internal::Minmax_traits<T>::min, internal::Minmax_traits<T>::max);
}
namespace internal {
// helper class
template < typename T >
struct Indeterminate_helper {
typedef T result_type;
result_type operator()() const
{ return T(); }
};
template < typename T >
struct Indeterminate_helper< Uncertain<T> > {
typedef Uncertain<T> result_type;
result_type operator()() const
{ return Uncertain<T>::indeterminate(); }
};
} // namespace internal
template < typename T >
inline
typename internal::Indeterminate_helper<T>::result_type
indeterminate()
{
return internal::Indeterminate_helper<T>()();
}
template < typename T >
inline
bool is_indeterminate(T)
{
return false;
}
template < typename T >
inline
bool is_indeterminate(Uncertain<T> a)
{
return ! a.is_certain();
}
// certainly/possibly
// ------------------
inline bool certainly(bool b) { return b; }
inline bool possibly(bool b) { return b; }
inline bool certainly_not(bool b) { return !b; }
inline bool possibly_not(bool b) { return !b; }
inline
bool certainly(Uncertain<bool> c)
{
return is_certain(c) && get_certain(c);
}
inline
bool possibly(Uncertain<bool> c)
{
return !is_certain(c) || get_certain(c);
}
inline
bool certainly_not(Uncertain<bool> c)
{
return is_certain(c) && !get_certain(c);
}
inline
bool possibly_not(Uncertain<bool> c)
{
return !is_certain(c) || !get_certain(c);
}
// Boolean operations for Uncertain<bool>
// --------------------------------------
inline
Uncertain<bool> operator!(Uncertain<bool> a)
{
return Uncertain<bool>(!a.sup(), !a.inf());
}
inline
Uncertain<bool> operator|(Uncertain<bool> a, Uncertain<bool> b)
{
return Uncertain<bool>(a.inf() | b.inf(), a.sup() | b.sup());
}
inline
Uncertain<bool> operator|(bool a, Uncertain<bool> b)
{
return Uncertain<bool>(a | b.inf(), a | b.sup());
}
inline
Uncertain<bool> operator|(Uncertain<bool> a, bool b)
{
return Uncertain<bool>(a.inf() | b, a.sup() | b);
}
inline
Uncertain<bool> operator&(Uncertain<bool> a, Uncertain<bool> b)
{
return Uncertain<bool>(a.inf() & b.inf(), a.sup() & b.sup());
}
inline
Uncertain<bool> operator&(bool a, Uncertain<bool> b)
{
return Uncertain<bool>(a & b.inf(), a & b.sup());
}
inline
Uncertain<bool> operator&(Uncertain<bool> a, bool b)
{
return Uncertain<bool>(a.inf() & b, a.sup() & b);
}
// operator&& and operator|| are not provided because, unless their bool counterpart,
// they lack the "short-circuiting" property.
// We provide macros CGAL_AND and CGAL_OR, which attempt to emulate their behavior.
// Key things : do not evaluate expressions twice, and evaluate the right hand side
// expression only when needed.
// TODO : C++0x lambdas should be able to help here.
#ifdef CGAL_CFG_NO_STATEMENT_EXPRESSIONS
# define CGAL_AND(X, Y) ((X) && (Y))
# define CGAL_OR(X, Y) ((X) || (Y))
#else
# define CGAL_AND(X, Y) \
__extension__ \
({ CGAL::Uncertain<bool> CGAL_TMP = (X); \
CGAL::certainly_not(CGAL_TMP) ? CGAL::make_uncertain(false) \
: CGAL_TMP & CGAL::make_uncertain((Y)); })
# define CGAL_OR(X, Y) \
__extension__ \
({ CGAL::Uncertain<bool> CGAL_TMP = (X); \
CGAL::certainly(CGAL_TMP) ? CGAL::make_uncertain(true) \
: CGAL_TMP | CGAL::make_uncertain((Y)); })
#endif
#define CGAL_AND_3(X, Y, Z) CGAL_AND(X, CGAL_AND(Y, Z))
#define CGAL_OR_3(X, Y, Z) CGAL_OR(X, CGAL_OR(Y, Z))
// Equality operators
template < typename T >
inline
Uncertain<bool> operator==(Uncertain<T> a, Uncertain<T> b)
{
if (a.sup() < b.inf() || b.sup() < a.inf())
return false;
if (is_certain(a) && is_certain(b)) // test above implies get_certain(a) == get_certain(b)
return true;
return Uncertain<bool>::indeterminate();
}
template < typename T >
inline
Uncertain<bool> operator==(Uncertain<T> a, T b)
{
if (a.sup() < b || b < a.inf())
return false;
if (is_certain(a))
return true;
return Uncertain<bool>::indeterminate();
}
template < typename T >
inline
Uncertain<bool> operator==(T a, Uncertain<T> b)
{
return b == a;
}
template < typename T >
inline
Uncertain<bool> operator!=(Uncertain<T> a, Uncertain<T> b)
{
return ! (a == b);
}
template < typename T >
inline
Uncertain<bool> operator!=(Uncertain<T> a, T b)
{
return ! (a == b);
}
template < typename T >
inline
Uncertain<bool> operator!=(T a, Uncertain<T> b)
{
return ! (a == b);
}
// Comparison operators (useful for enums only, I guess (?) ).
template < typename T >
inline
Uncertain<bool> operator<(Uncertain<T> a, Uncertain<T> b)
{
if (a.sup() < b.inf())
return true;
if (a.inf() >= b.sup())
return false;
return Uncertain<bool>::indeterminate();
}
template < typename T >
inline
Uncertain<bool> operator<(Uncertain<T> a, T b)
{
if (a.sup() < b)
return true;
if (a.inf() >= b)
return false;
return Uncertain<bool>::indeterminate();
}
template < typename T >
inline
Uncertain<bool> operator<(T a, Uncertain<T> b)
{
if (a < b.inf())
return true;
if (a >= b.sup())
return false;
return Uncertain<bool>::indeterminate();
}
template < typename T >
inline
Uncertain<bool> operator>(Uncertain<T> a, Uncertain<T> b)
{
return b < a;
}
template < typename T >
inline
Uncertain<bool> operator>(Uncertain<T> a, T b)
{
return b < a;
}
template < typename T >
inline
Uncertain<bool> operator>(T a, Uncertain<T> b)
{
return b < a;
}
template < typename T >
inline
Uncertain<bool> operator<=(Uncertain<T> a, Uncertain<T> b)
{
return !(b < a);
}
template < typename T >
inline
Uncertain<bool> operator<=(Uncertain<T> a, T b)
{
return !(b < a);
}
template < typename T >
inline
Uncertain<bool> operator<=(T a, Uncertain<T> b)
{
return !(b < a);
}
template < typename T >
inline
Uncertain<bool> operator>=(Uncertain<T> a, Uncertain<T> b)
{
return !(a < b);
}
template < typename T >
inline
Uncertain<bool> operator>=(Uncertain<T> a, T b)
{
return !(a < b);
}
template < typename T >
inline
Uncertain<bool> operator>=(T a, Uncertain<T> b)
{
return !(a < b);
}
// Maker function (a la std::make_pair).
template < typename T >
inline
Uncertain<T> make_uncertain(T t)
{
return Uncertain<T>(t);
}
template < typename T >
inline
Uncertain<T> make_uncertain(Uncertain<T> t)
{
return t;
}
// make_certain() : Forcing a cast to certain (possibly throwing).
// This is meant to be used only in cases where we cannot easily propagate the
// uncertainty, such as when used in a switch statement (code may later be
// revisited to do things in a better way).
template < typename T >
inline
T make_certain(T t)
{
return t;
}
template < typename T >
inline
T make_certain(Uncertain<T> t)
{
return t.make_certain();
}
// opposite
template < typename T > // should be constrained only for enums.
inline
Uncertain<T> operator-(Uncertain<T> u)
{
return Uncertain<T>(-u.sup(), -u.inf());
}
// "sign" multiplication.
// Should be constrained only for "sign" enums, useless for bool.
template < typename T >
Uncertain<T> operator*(Uncertain<T> a, Uncertain<T> b)
{
if (a.inf() >= 0) // e>=0
{
// b>=0 [a.inf()*b.inf(); a.sup()*b.sup()]
// b<=0 [a.sup()*b.inf(); a.inf()*b.sup()]
// b~=0 [a.sup()*b.inf(); a.sup()*b.sup()]
T aa = a.inf(), bb = a.sup();
if (b.inf() < 0)
{
aa = bb;
if (b.sup() < 0)
bb = a.inf();
}
return Uncertain<T>(aa * b.inf(), bb * b.sup());
}
else if (a.sup()<=0) // e<=0
{
// b>=0 [a.inf()*b.sup(); a.sup()*b.inf()]
// b<=0 [a.sup()*b.sup(); a.inf()*b.inf()]
// b~=0 [a.inf()*b.sup(); a.inf()*b.inf()]
T aa = a.sup(), bb = a.inf();
if (b.inf() < 0)
{
aa=bb;
if (b.sup() < 0)
bb=a.sup();
}
return Uncertain<T>(bb * b.sup(), aa * b.inf());
}
else // 0 \in [inf();sup()]
{
if (b.inf()>=0) // d>=0
return Uncertain<T>(a.inf() * b.sup(), a.sup() * b.sup());
if (b.sup()<=0) // d<=0
return Uncertain<T>(a.sup() * b.inf(), a.inf() * b.inf());
// 0 \in d
T tmp1 = a.inf() * b.sup();
T tmp2 = a.sup() * b.inf();
T tmp3 = a.inf() * b.inf();
T tmp4 = a.sup() * b.sup();
return Uncertain<T>((std::min)(tmp1, tmp2), (std::max)(tmp3, tmp4));
}
}
template < typename T >
inline
Uncertain<T> operator*(T a, Uncertain<T> b)
{
return Uncertain<T>(a) * b;
}
template < typename T >
inline
Uncertain<T> operator*(Uncertain<T> a, T b)
{
return a * Uncertain<T>(b);
}
// enum_cast overload
#ifdef CGAL_CFG_MATCHING_BUG_5
template < typename T, typename U >
inline
Uncertain<T> enum_cast_bug(Uncertain<U> u, const T*)
{
return Uncertain<T>(static_cast<const T>(u.inf()),
static_cast<const T>(u.sup()));
}
#else
template < typename T, typename U >
inline
Uncertain<T> enum_cast(Uncertain<U> u)
{
return Uncertain<T>(static_cast<T>(u.inf()), static_cast<T>(u.sup()));
}
#endif
} //namespace CGAL
#endif // CGAL_UNCERTAIN_H