poco/Foundation/include/Poco/Nullable.h

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//
// Nullable.h
//
// $Id: //poco/1.4/Foundation/include/Poco/Nullable.h#1 $
//
// Library: Foundation
// Package: Core
// Module: Nullable
//
// Definition of the Nullable template class.
//
// Copyright (c) 2010, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef Foundation_Nullable_INCLUDED
#define Foundation_Nullable_INCLUDED
#include "Poco/Foundation.h"
#include "Poco/Exception.h"
#include <algorithm>
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#include <iostream>
namespace Poco {
enum NullType
{
NULL_GENERIC = 0
};
template <typename C>
class Nullable
/// Nullable is a simple wrapper class for value types
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/// that allows objects or native type variables
/// to have "null" value.
///
/// The class is useful for passing parameters to functions
/// when parameters are optional and no default values
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/// should be used or when a non-assigned state is needed,
/// such as in e.g. fetching null values from database.
///
/// A Nullable can be default constructed. In this case,
/// the Nullable will have a Null value and isNull() will
/// return true. Calling value() (without default value) on
/// a Null object will throw a NullValueException.
///
/// A Nullable can also be constructed from a value.
/// It is possible to assign a value to a Nullable, and
/// to reset a Nullable to contain a Null value by calling
/// clear().
///
/// For use with Nullable, the value type should support
/// default construction.
{
public:
Nullable():
/// Creates an empty Nullable.
_value(),
_isNull(true)
{
}
Nullable(const NullType&):
/// Creates an empty Nullable.
_value(),
_isNull(true)
{
}
Nullable(const C& value):
/// Creates a Nullable with the given value.
_value(value),
_isNull(false)
{
}
Nullable(const Nullable& other):
/// Creates a Nullable by copying another one.
_value(other._value),
_isNull(other._isNull)
{
}
~Nullable()
/// Destroys the Nullable.
{
}
Nullable& assign(const C& value)
/// Assigns a value to the Nullable.
{
_value = value;
_isNull = false;
return *this;
}
Nullable& assign(const Nullable& other)
/// Assigns another Nullable.
{
Nullable tmp(other);
swap(tmp);
return *this;
}
Nullable& assign(NullType)
/// Sets value to null.
{
_isNull = true;
return *this;
}
Nullable& operator = (const C& value)
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/// Assigns a value to the Nullable.
{
return assign(value);
}
Nullable& operator = (const Nullable& other)
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/// Assigns another Nullable.
{
return assign(other);
}
Nullable& operator = (NullType)
/// Assigns another Nullable.
{
_isNull = true;
return *this;
}
void swap(Nullable& other)
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/// Swaps this Nullable with other.
{
std::swap(_value, other._value);
std::swap(_isNull, other._isNull);
}
bool operator == (const Nullable<C>& other) const
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/// Compares two Nullables for equality
{
return (_isNull && other._isNull) || (_isNull == other._isNull && _value == other._value);
}
bool operator == (const C& value) const
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/// Compares Nullable with value for equality
{
return (!_isNull && _value == value);
}
bool operator == (const NullType&) const
/// Compares Nullable with NullData for equality
{
return _isNull;
}
bool operator != (const C& value) const
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/// Compares Nullable with value for non equality
{
return !(*this == value);
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}
bool operator != (const Nullable<C>& other) const
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/// Compares two Nullables for non equality
{
return !(*this == other);
}
bool operator != (const NullType&) const
/// Compares with NullData for non equality
{
return !_isNull;
}
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bool operator < (const Nullable<C>& other) const
/// Compares two Nullable objects. Return true if this object's
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/// value is smaller than the other object's value.
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/// Null value is smaller than a non-null value.
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{
if (_isNull && other._isNull) return false;
if (!_isNull && !other._isNull)
return (_value < other._value);
if (_isNull && !other._isNull) return true;
return false;
}
bool operator > (const Nullable<C>& other) const
/// Compares two Nullable objects. Return true if this object's
/// value is greater than the other object's value.
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/// A non-null value is greater than a null value.
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{
return !(*this == other) && !(*this < other);
}
C& value()
/// Returns the Nullable's value.
///
/// Throws a NullValueException if the Nullable is empty.
{
if (!_isNull)
return _value;
else
throw NullValueException();
}
const C& value() const
/// Returns the Nullable's value.
///
/// Throws a NullValueException if the Nullable is empty.
{
if (!_isNull)
return _value;
else
throw NullValueException();
}
const C& value(const C& deflt) const
/// Returns the Nullable's value, or the
/// given default value if the Nullable is empty.
{
return _isNull ? deflt : _value;
}
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operator C& ()
/// Get reference to the value
{
return value();
}
operator const C& () const
/// Get const reference to the value
{
return value();
}
operator NullType& ()
/// Get reference to the value
{
return _null;
}
bool isNull() const
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/// Returns true if the Nullable is empty.
{
return _isNull;
}
void clear()
/// Clears the Nullable.
{
_isNull = true;
}
private:
C _value;
bool _isNull;
NullType _null;
};
template <typename C>
inline void swap(Nullable<C>& n1, Nullable<C>& n2)
{
n1.swap(n2);
}
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template <typename C>
std::ostream& operator<<(std::ostream& out, const Nullable<C>& obj)
{
if (!obj.isNull()) out << obj.value();
return out;
}
template <typename C>
bool operator == (const NullType&, const Nullable<C>& n)
/// Returns true if this Nullable is null.
{
return n.isNull();
}
template <typename C>
bool operator != (const C& c, const Nullable<C>& n)
/// Compares Nullable with value for non equality
{
return !(n == c);
}
template <typename C>
bool operator == (const C& c, const Nullable<C>& n)
/// Compares Nullable with NullData for equality
{
return (n == c);
}
template <typename C>
bool operator != (const NullType&, const Nullable<C>& n)
/// Returns true if this Nullable is not null.
{
return !n.isNull();
}
} // namespace Poco
#endif // Foundation_Nullable_INCLUDED