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/*
Copyright (c) 2000, 2016, Oracle and/or its affiliates.
Copyright (c) 2009, 2016, MariaDB
This program 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; version 2 of the License.
This program 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 02110-1335 USA */
/* File that includes common types used globally in MariaDB */
#ifndef SQL_TYPES_INCLUDED
#define SQL_TYPES_INCLUDED
typedef ulonglong sql_mode_t;
typedef int64 query_id_t;
enum enum_nullability { NOT_NULL, NULLABLE };
/*
"fuzzydate" with strict data type control.
Represents a mixture of *only* data type conversion flags, without rounding.
Please keep "explicit" in constructors and conversion methods.
*/
class date_conv_mode_t
{
public:
enum value_t
{
CONV_NONE= 0U,
/*
FUZZY_DATES is used for the result will only be used for comparison
purposes. Conversion is as relaxed as possible.
*/
FUZZY_DATES= 1U,
TIME_ONLY= 4U,
INTERVAL_hhmmssff= 8U,
INTERVAL_DAY= 16U,
RANGE0_LAST= INTERVAL_DAY,
NO_ZERO_IN_DATE= (1UL << 23), // MODE_NO_ZERO_IN_DATE
NO_ZERO_DATE= (1UL << 24), // MODE_NO_ZERO_DATE
INVALID_DATES= (1UL << 25) // MODE_INVALID_DATES
};
/*
BIT-OR for all known values. Let's have a separate enum for it.
- We don't put this value "value_t", to avoid handling it in switch().
- We don't put this value as a static const inside the class,
because "gdb" would display it every time when we do "print"
for a time_round_mode_t value.
- We can't put into into a function returning this value, because
it's not allowed to use functions in static_assert.
*/
enum known_values_t
{
KNOWN_MODES= FUZZY_DATES |
TIME_ONLY | INTERVAL_hhmmssff | INTERVAL_DAY |
NO_ZERO_IN_DATE | NO_ZERO_DATE | INVALID_DATES
};
private:
value_t m_mode;
public:
// Constructors
explicit date_conv_mode_t(ulonglong fuzzydate)
:m_mode((value_t) fuzzydate)
{ }
// Conversion operators
explicit operator ulonglong() const
{
return m_mode;
}
explicit operator bool() const
{
return m_mode != 0;
}
// Unary operators
ulonglong operator~() const
{
return ~m_mode;
}
// Dyadic bitwise operators
date_conv_mode_t operator&(const date_conv_mode_t &other) const
{
return date_conv_mode_t(m_mode & other.m_mode);
}
date_conv_mode_t operator&(const ulonglong other) const
{
return date_conv_mode_t(m_mode & other);
}
date_conv_mode_t operator|(const date_conv_mode_t &other) const
{
return date_conv_mode_t(m_mode | other.m_mode);
}
// Dyadic bitwise assignment operators
date_conv_mode_t &operator&=(const date_conv_mode_t &other)
{
m_mode= value_t(m_mode & other.m_mode);
return *this;
}
date_conv_mode_t &operator|=(const date_conv_mode_t &other)
{
m_mode= value_t(m_mode | other.m_mode);
return *this;
}
};
/*
Fractional rounding mode for temporal data types.
*/
class time_round_mode_t
{
public:
enum value_t
{
/*
Use FRAC_NONE when the value needs no rounding nor truncation,
because it is already known not to haveany fractional digits outside
of the requested precision.
*/
FRAC_NONE= 0,
FRAC_TRUNCATE= date_conv_mode_t::RANGE0_LAST << 1, // 32
FRAC_ROUND= date_conv_mode_t::RANGE0_LAST << 2 // 64
};
// BIT-OR for all known values. See comments in time_conv_mode_t.
enum known_values_t
{
KNOWN_MODES= FRAC_TRUNCATE | FRAC_ROUND
};
private:
value_t m_mode;
public:
// Constructors
explicit time_round_mode_t(ulonglong mode)
:m_mode((value_t) mode)
{
DBUG_ASSERT(mode == FRAC_NONE ||
mode == FRAC_TRUNCATE ||
mode == FRAC_ROUND);
}
// Conversion operators
explicit operator ulonglong() const
{
return m_mode;
}
value_t mode() const
{
return m_mode;
}
// Comparison operators
bool operator==(const time_round_mode_t &other)
{
return m_mode == other.m_mode;
}
};
/*
"fuzzydate" with strict data type control.
Used as a parameter to get_date() and represents a mixture of:
- data type conversion flags
- fractional second rounding flags
Please keep "explicit" in constructors and conversion methods.
*/
class date_mode_t
{
public:
enum value_t
{
CONV_NONE= date_conv_mode_t::CONV_NONE, // 0
FUZZY_DATES= date_conv_mode_t::FUZZY_DATES, // 1
TIME_ONLY= date_conv_mode_t::TIME_ONLY, // 4
INTERVAL_hhmmssff= date_conv_mode_t::INTERVAL_hhmmssff, // 8
INTERVAL_DAY= date_conv_mode_t::INTERVAL_DAY, // 16
FRAC_TRUNCATE= time_round_mode_t::FRAC_TRUNCATE, // 32
FRAC_ROUND= time_round_mode_t::FRAC_ROUND, // 64
NO_ZERO_IN_DATE= date_conv_mode_t::NO_ZERO_IN_DATE, // (1UL << 23)
NO_ZERO_DATE= date_conv_mode_t::NO_ZERO_DATE, // (1UL << 24)
INVALID_DATES= date_conv_mode_t::INVALID_DATES, // (1UL << 25)
};
protected:
value_t m_mode;
public:
// Constructors
explicit date_mode_t(ulonglong fuzzydate)
:m_mode((value_t) fuzzydate)
{ }
// Conversion operators
explicit operator ulonglong() const
{
return m_mode;
}
explicit operator bool() const
{
return m_mode != 0;
}
explicit operator date_conv_mode_t() const
{
return date_conv_mode_t(ulonglong(m_mode) & date_conv_mode_t::KNOWN_MODES);
}
explicit operator time_round_mode_t() const
{
return time_round_mode_t(ulonglong(m_mode) & time_round_mode_t::KNOWN_MODES);
}
// Unary operators
ulonglong operator~() const
{
return ~m_mode;
}
bool operator!() const
{
return !m_mode;
}
// Dyadic bitwise operators
date_mode_t operator&(const date_mode_t &other) const
{
return date_mode_t(m_mode & other.m_mode);
}
date_mode_t operator&(ulonglong other) const
{
return date_mode_t(m_mode & other);
}
date_mode_t operator|(const date_mode_t &other) const
{
return date_mode_t(m_mode | other.m_mode);
}
// Dyadic bitwise assignment operators
date_mode_t &operator&=(const date_mode_t &other)
{
m_mode= value_t(m_mode & other.m_mode);
return *this;
}
date_mode_t &operator|=(const date_mode_t &other)
{
m_mode= value_t(m_mode | other.m_mode);
return *this;
}
date_mode_t &operator|=(const date_conv_mode_t &other)
{
m_mode= value_t(m_mode | ulonglong(other));
return *this;
}
};
// Bitwise OR out-of-class operators for data type mixtures
static inline date_mode_t operator|(const date_mode_t &a,
const date_conv_mode_t &b)
{
return date_mode_t(ulonglong(a) | ulonglong(b));
}
static inline date_mode_t operator|(const date_conv_mode_t &a,
const time_round_mode_t &b)
{
return date_mode_t(ulonglong(a) | ulonglong(b));
}
static inline date_mode_t operator|(const date_conv_mode_t &a,
const date_mode_t &b)
{
return date_mode_t(ulonglong(a) | ulonglong(b));
}
// Bitwise AND out-of-class operators for data type mixtures
static inline date_conv_mode_t operator&(const date_mode_t &a,
const date_conv_mode_t &b)
{
return date_conv_mode_t(ulonglong(a) & ulonglong(b));
}
static inline date_conv_mode_t operator&(const date_conv_mode_t &a,
const date_mode_t &b)
{
return date_conv_mode_t(ulonglong(a) & ulonglong(b));
}
static inline date_conv_mode_t operator&(sql_mode_t &a,
const date_conv_mode_t &b)
{
return date_conv_mode_t(a & ulonglong(b));
}
static const date_conv_mode_t
TIME_CONV_NONE (date_conv_mode_t::CONV_NONE),
TIME_FUZZY_DATES (date_conv_mode_t::FUZZY_DATES),
TIME_TIME_ONLY (date_conv_mode_t::TIME_ONLY),
TIME_INTERVAL_hhmmssff (date_conv_mode_t::INTERVAL_hhmmssff),
TIME_INTERVAL_DAY (date_conv_mode_t::INTERVAL_DAY),
TIME_NO_ZERO_IN_DATE (date_conv_mode_t::NO_ZERO_IN_DATE),
TIME_NO_ZERO_DATE (date_conv_mode_t::NO_ZERO_DATE),
TIME_INVALID_DATES (date_conv_mode_t::INVALID_DATES);
// An often used combination
static const date_conv_mode_t
TIME_NO_ZEROS (date_conv_mode_t::NO_ZERO_DATE|
date_conv_mode_t::NO_ZERO_IN_DATE);
// Flags understood by str_to_xxx, number_to_xxx, check_date
static const date_conv_mode_t
TIME_MODE_FOR_XXX_TO_DATE (date_mode_t::NO_ZERO_IN_DATE |
date_mode_t::NO_ZERO_DATE |
date_mode_t::INVALID_DATES);
static const time_round_mode_t
TIME_FRAC_NONE (time_round_mode_t::FRAC_NONE),
TIME_FRAC_TRUNCATE (time_round_mode_t::FRAC_TRUNCATE),
TIME_FRAC_ROUND (time_round_mode_t::FRAC_ROUND);
#endif
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