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sqlpp11/include/sqlpp11/integral.h

298 lines
8.4 KiB
C++

/*
* Copyright (c) 2013-2014, Roland Bock
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
*
* Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright notice, this
* list of conditions and the following disclaimer in the documentation and/or
* other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef SQLPP_INTEGRAL_H
#define SQLPP_INTEGRAL_H
#include <cstdlib>
#include <cassert>
#include <sqlpp11/basic_expression_operators.h>
#include <sqlpp11/type_traits.h>
#include <sqlpp11/exception.h>
#include <sqlpp11/vendor/value_type.h>
namespace sqlpp
{
namespace detail
{
// integral value type
struct integral
{
using _tag = ::sqlpp::tag::integral;
using _cpp_value_type = int64_t;
struct _parameter_t
{
using _value_type = integral;
_parameter_t():
_value(0),
_is_null(true)
{}
explicit _parameter_t(const _cpp_value_type& value):
_value(value),
_is_null(false)
{}
_parameter_t& operator=(const _cpp_value_type& value)
{
_value = value;
_is_null = false;
return *this;
}
void set_null()
{
_value = 0;
_is_null = true;
}
bool is_null() const
{
return _is_null;
}
const _cpp_value_type& value() const
{
return _value;
}
operator _cpp_value_type() const { return _value; }
template<typename Target>
void _bind(Target& target, size_t index) const
{
target._bind_integral_parameter(index, &_value, _is_null);
}
private:
_cpp_value_type _value;
bool _is_null;
};
template<typename Db, bool NullIsTrivial = false>
struct _result_entry_t
{
using _value_type = integral;
_result_entry_t():
_is_valid(false),
_is_null(true),
_value(0)
{}
_result_entry_t(const char* data, size_t):
_is_valid(true),
_is_null(data == nullptr),
_value(_is_null ? 0 : std::strtoll(data, nullptr, 10))
{}
void assign(const char* data, size_t)
{
_is_valid = true;
_is_null = data == nullptr;
_value = _is_null ? 0 : std::strtoll(data, nullptr, 10);
}
void invalidate()
{
_is_valid = false;
_is_null = true;
_value = 0;
}
void validate()
{
_is_valid = true;
}
bool is_null() const
{
if (connector_assert_result_validity_t<Db>::value)
assert(_is_valid);
else if (not _is_valid)
throw exception("accessing is_null in non-existing row");
return _is_null;
}
_cpp_value_type value() const
{
const bool null_value = _is_null and not NullIsTrivial and not connector_null_result_is_trivial_value_t<Db>::value;
if (connector_assert_result_validity_t<Db>::value)
{
assert(_is_valid);
assert(not null_value);
}
else
{
if (not _is_valid)
throw exception("accessing value in non-existing row");
if (null_value)
throw exception("accessing value of NULL field");
}
return _value;
}
operator _cpp_value_type() const { return value(); }
template<typename Target>
void _bind(Target& target, size_t i)
{
target._bind_integral_result(i, &_value, &_is_null);
}
private:
bool _is_valid;
bool _is_null;
_cpp_value_type _value;
};
template<typename T>
struct _is_valid_operand
{
static constexpr bool value =
is_expression_t<T>::value // expressions are OK
and is_numeric_t<T>::value // the correct value type is required, of course
;
};
template<typename Base>
struct expression_operators: public basic_expression_operators<Base, is_numeric_t>
{
template<typename T>
vendor::plus_t<Base, vendor::value_type_t<T>, vendor::wrap_operand_t<T>> operator +(T t) const
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs operand");
return { *static_cast<const Base*>(this), {t} };
}
template<typename T>
vendor::minus_t<Base, vendor::value_type_t<T>, vendor::wrap_operand_t<T>> operator -(T t) const
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs operand");
return { *static_cast<const Base*>(this), {t} };
}
template<typename T>
vendor::multiplies_t<Base, vendor::value_type_t<T>, vendor::wrap_operand_t<T>> operator *(T t) const
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs operand");
return { *static_cast<const Base*>(this), {t} };
}
template<typename T>
vendor::divides_t<Base, vendor::wrap_operand_t<T>> operator /(T t) const
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs operand");
return { *static_cast<const Base*>(this), {t} };
}
template<typename T>
vendor::modulus_t<Base, vendor::wrap_operand_t<T>> operator %(T t) const
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs operand");
return { *static_cast<const Base*>(this), {t} };
}
vendor::unary_plus_t<integral, Base> operator +() const
{
return { *static_cast<const Base*>(this) };
}
vendor::unary_minus_t<integral, Base> operator -() const
{
return { *static_cast<const Base*>(this) };
}
};
template<typename Base>
struct column_operators
{
template<typename T>
auto operator +=(T t) const -> vendor::assignment_t<Base, vendor::plus_t<Base, vendor::value_type_t<T>, vendor::wrap_operand_t<T>>>
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs assignment operand");
return { *static_cast<const Base*>(this), { *static_cast<const Base*>(this), rhs{t} } };
}
template<typename T>
auto operator -=(T t) const -> vendor::assignment_t<Base, vendor::minus_t<Base, vendor::value_type_t<T>, vendor::wrap_operand_t<T>>>
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs assignment operand");
return { *static_cast<const Base*>(this), { *static_cast<const Base*>(this), rhs{t} } };
}
template<typename T>
auto operator /=(T t) const -> vendor::assignment_t<Base, vendor::divides_t<Base, vendor::wrap_operand_t<T>>>
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs assignment operand");
return { *static_cast<const Base*>(this), { *static_cast<const Base*>(this), rhs{t} } };
}
template<typename T>
auto operator *=(T t) const -> vendor::assignment_t<Base, vendor::multiplies_t<Base, vendor::value_type_t<T>, vendor::wrap_operand_t<T>>>
{
using rhs = vendor::wrap_operand_t<T>;
static_assert(_is_valid_operand<rhs>::value, "invalid rhs assignment operand");
return { *static_cast<const Base*>(this), { *static_cast<const Base*>(this), rhs{t} } };
}
};
};
template<typename Db, bool NullIsTrivial>
inline std::ostream& operator<<(std::ostream& os, const integral::_result_entry_t<Db, NullIsTrivial>& e)
{
return os << e.value();
}
}
using tinyint = detail::integral;
using smallint = detail::integral;
using integer = detail::integral;
using bigint = detail::integral;
}
#endif