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/* - mode: c; c-basic-offset: 2; indent-tabs-mode: nil; -*-
* vim:expandtab:shiftwidth=2:tabstop=2:smarttab:
*
* Copyright (C) 2008-2009 Sun Microsystems
*
* 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; either version 2 of the License, or
* (at your option) any later version.
*
* 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 St, Fifth Floor, Boston, MA 02110-1301 USA
*/
/**
* @file
*
* Defines the API for dealing with temporal data inside the server.
*
* The Temporal class is the base class for all data of any temporal
* type. A number of derived classes define specialized classes
* representng various date, date-time, time, or timestamp types.
*
* All Temporal derived classes are ValueObjects. That is to say that
* Temporal class instances are not part of the Item hierarchy and serve
* <em>only</em> to represent a time or date-related piece of data.
*
* @note
*
* Low-level calendrical calculations are done via routines in the
* calendar.cc file.
*
* @see drizzled/calendar.cc
*/
#ifndef DRIZZLED_TEMPORAL_H
#define DRIZZLED_TEMPORAL_H
#define DRIZZLE_MAX_SECONDS 59
#define DRIZZLE_MAX_MINUTES 59
#define DRIZZLE_MAX_HOURS 23
#define DRIZZLE_MAX_DAYS 31
#define DRIZZLE_MAX_MONTHS 12
#define DRIZZLE_MAX_YEARS_SQL 9999
#define DRIZZLE_MAX_YEARS_EPOCH 2038
#define DRIZZLE_MIN_SECONDS 0
#define DRIZZLE_MIN_MINUTES 0
#define DRIZZLE_MIN_HOURS 0
#define DRIZZLE_MIN_DAYS 1
#define DRIZZLE_MIN_MONTHS 1
#define DRIZZLE_MIN_YEARS_SQL 1
#define DRIZZLE_MIN_YEARS_EPOCH 1970
#define DRIZZLE_SECONDS_IN_MINUTE 60
#define DRIZZLE_SECONDS_IN_HOUR (60*60)
#define DRIZZLE_SECONDS_IN_DAY (60*60*24)
#define DRIZZLE_NANOSECONDS_IN_MICROSECOND 1000
#define DRIZZLE_MAX_LENGTH_DATETIME_AS_STRING 40
#define DRIZZLE_YY_PART_YEAR 70
#include "drizzled/calendar.h"
#include <cassert>
#include <ostream>
/* Outside forward declarations */
class my_decimal;
namespace drizzled
{
/* Forward declaration needed */
class TemporalInterval;
class TemporalIntervalYear;
class TemporalIntervalDayOrLess;
class TemporalIntervalDayOrWeek;
class TemporalIntervalYearMonth;
/**
* Base class for all temporal data classes.
*/
class Temporal
{
protected:
enum calendar _calendar;
uint32_t _years;
uint32_t _months;
uint32_t _days;
uint32_t _hours;
uint32_t _minutes;
uint32_t _seconds;
time_t _epoch_seconds;
uint32_t _useconds;
uint32_t _nseconds;
/** Set on some operator overloads. Indicates that an overflow occurred. */
bool _overflow;
/** Returns number of seconds in time components (hour + minute + second) */
uint64_t _cumulative_seconds_in_time() const;
/** Resets all temporal components to zero */
inline void _reset()
{
_years= _months= _days= _hours= _minutes=
_seconds= _epoch_seconds= _useconds= _nseconds= 0;
}
public:
Temporal();
virtual ~Temporal() {}
/** Returns the calendar component. */
inline enum calendar calendar() const {return _calendar;}
/** Sets the nseconds component. */
inline void set_nseconds(const uint32_t nsecond) {_nseconds= nsecond;}
/** Returns the nanoseconds component. */
inline uint32_t nseconds() const {return _nseconds;}
/** Sets the useconds component. */
inline void set_useconds(const uint32_t usecond) {_useconds= usecond;}
/** Returns the microsseconds component. */
inline uint32_t useconds() const {return _useconds;}
/**
* Sets the epoch_seconds component automatically,
* based on the temporal's components.
*/
void set_epoch_seconds();
/** Sets the epch_seconds component manually. */
inline void set_epoch_seconds(const uint32_t epoch_second)
{_epoch_seconds= epoch_second;}
/** Returns the UNIX epoch seconds component. */
inline time_t epoch_seconds() const {return _epoch_seconds;}
/** Sets the seconds component. */
inline void set_seconds(const uint32_t second) {_seconds= second;}
/** Returns the seconds component. */
inline uint32_t seconds() const {return _seconds;}
/** Sets the days component. */
inline void set_minutes(const uint32_t minute) {_minutes= minute;}
/** Returns the minutes component. */
inline uint32_t minutes() const {return _minutes;}
/** Sets the hours component. */
inline void set_hours(const uint32_t hour) {_hours= hour;}
/** Returns the hours component. */
inline uint32_t hours() const {return _hours;}
/** Sets the days component. */
inline void set_days(const uint32_t day) {_days= day;}
/** Returns the days component. */
inline uint32_t days() const {return _days;}
/** Sets the months component. */
inline void set_months(const uint32_t month) {_months= month;}
/** Returns the months component. */
inline uint32_t months() const {return _months;}
/** Sets the years component. */
inline void set_years(const uint32_t year) {_years= year;}
/** Returns the years component. */
inline uint32_t years() const {return _years;}
/** Returns whether the overflow flag was set
* (which can occur during an overloaded operator's execution) */
inline bool overflow() const {return _overflow;}
/** Returns whether the temporal value is valid as a date. */
virtual bool is_valid_date() const= 0;
/** Returns whether the temporal value is valid as a datetime. */
virtual bool is_valid_datetime() const= 0;
/** Returns whether the temporal value is valid as a time. */
virtual bool is_valid_time() const= 0;
/** Returns whether the temporal value is valid as a UNIX timestamp. */
virtual bool is_valid_timestamp() const= 0;
/**
* Returns whether the temporal
* value is valid. Each subclass defines what is
* valid for the range of temporal data it contains.
*/
virtual bool is_valid() const= 0;
/**
* All Temporal derived classes must implement
* conversion routines for converting to and from
* a string. Subclasses implement other conversion
* routines, but should always follow these notes:
*
* 1) Ensure that ALL from_xxx methods call is_valid()
* 2) Ensure that ALL to_xxx methods are void returns and
* do not call is_valid()
*
* This minimizes the repeated bounds-checking to
* just the conversion from_xxx routines.
*/
friend class TemporalFormat;
};
/* Forward declaration needed */
class DateTime;
class Timestamp;
class Time;
/**
* Class representing temporal components in a valid
* SQL date range, with no time component
*/
class Date: public Temporal
{
public:
Date() :Temporal() {}
/**
* Comparison operator overloads to compare a Date against
* another Date value.
*
* @param Date to compare against.
*/
virtual bool operator==(const Date &rhs);
virtual bool operator!=(const Date &rhs);
virtual bool operator>(const Date &rhs);
virtual bool operator>=(const Date &rhs);
virtual bool operator<(const Date &rhs);
virtual bool operator<=(const Date &rhs);
/**
* Comparison operator overloads to compare a Date against
* a DateTime value.
*
* @param DateTime to compare against.
*/
virtual bool operator==(const DateTime &rhs);
virtual bool operator!=(const DateTime &rhs);
virtual bool operator>(const DateTime &rhs);
virtual bool operator>=(const DateTime &rhs);
virtual bool operator<(const DateTime &rhs);
virtual bool operator<=(const DateTime &rhs);
/**
* Comparison operator overloads to compare this against
* a Timestamp value.
*
* @param Timestamp to compare against.
*/
virtual bool operator==(const Timestamp &rhs);
virtual bool operator!=(const Timestamp &rhs);
virtual bool operator>(const Timestamp &rhs);
virtual bool operator>=(const Timestamp &rhs);
virtual bool operator<(const Timestamp &rhs);
virtual bool operator<=(const Timestamp &rhs);
/**
* Operator overload for adding/subtracting another Date
* (or subclass) to/from this temporal. When subtracting
* or adding two Dates, we return a new Date instance.
*
* @param Date instance to add/subtract to/from
*/
const Date operator-(const Date &rhs);
const Date operator+(const Date &rhs);
Date& operator+=(const Date &rhs);
Date& operator-=(const Date &rhs);
/**
* Operator to add/subtract a Time from a Time.
* We can return a Time new temporal instance.
*
* @param Temporal instance to add/subtract to/from
*/
const Date operator-(const Time &rhs);
const Date operator+(const Time &rhs);
Date& operator-=(const Time &rhs);
Date& operator+=(const Time &rhs);
/**
* Operator overload for adding/subtracting a DateTime
* (or subclass) to/from this temporal. When subtracting
* or adding two Dates, we return a new Date instance.
*
* @param DateTime instance to add/subtract to/from
*/
const Date operator-(const DateTime &rhs);
const Date operator+(const DateTime &rhs);
Date& operator+=(const DateTime &rhs);
Date& operator-=(const DateTime &rhs);
/**
* Operator overload for adding/subtracting a TemporalInterval
* instance to this temporal.
*
* @param TemporalInterval instance to add/subtract to/from
*/
Date& operator+=(const TemporalIntervalYear &rhs);
Date& operator+=(const TemporalIntervalDayOrLess &rhs);
Date& operator+=(const TemporalIntervalDayOrWeek &rhs);
Date& operator+=(const TemporalIntervalYearMonth &rhs);
Date& operator-=(const TemporalIntervalYear &rhs);
Date& operator-=(const TemporalIntervalDayOrLess &rhs);
Date& operator-=(const TemporalIntervalDayOrWeek &rhs);
Date& operator-=(const TemporalIntervalYearMonth &rhs);
/**
* Operator overload for when a DateTime instance is
* assigned to a Date. We do a copy of the DateTime's
* date-related components.
*
* @param The DateTime to copy from
*/
Date& operator=(const DateTime &rhs);
virtual bool is_valid_date() const {return is_valid();}
virtual bool is_valid_datetime() const {return is_valid();}
virtual bool is_valid_time() const {return false;}
virtual bool is_valid_timestamp() const
{
return is_valid() && in_unix_epoch();
}
/** Returns whether the temporal value is valid date. */
virtual bool is_valid() const;
/* Returns whether the Date (or subclass) instance is in the Unix Epoch. */
virtual bool in_unix_epoch() const;
/**
* Fills a supplied char string with a
* string representation of the Date
* value.
*
* @param C-String to fill.
* @param Length of to C-String
* @returns length of string written (not including trailing '\0').
* If output was truncated, returns length that would have
* been outputted.
*/
virtual int to_string(char *to, size_t to_len) const;
/**
* Maximum length of C-String needed to represent type
* (including '\0').
*/
static const int MAX_STRING_LENGTH= 11;
/**
* Attempts to populate the Date instance based
* on the contents of a supplied string.
*
* Returns whether the conversion was
* successful.
*
* @param String to convert from
* @param Length of supplied string
*/
virtual bool from_string(const char *from, size_t from_len);
/**
* Fills a supplied 8-byte integer pointer with an
* integer representation of the Date
* value.
*
* @param Integer to fill.
*/
virtual void to_int64_t(int64_t *to) const;
/**
* Fills a supplied 4-byte integer pointer with an
* integer representation of the Date
* value.
*
* @param Integer to fill.
*/
virtual void to_int32_t(int32_t *to) const;
/**
* Attempts to populate the Date instance based
* on the contents of a supplied 4-byte integer.
*
* Returns whether the conversion was
* successful.
*
* @param Integer to convert from
*/
virtual bool from_int32_t(const int32_t from);
/**
* Fills a supplied int64_t with the Julian Day Number
* representation of this Date.
*
* @note Julian Day Number != julian day!
*
* Julian Day Number is the monotonically increasing number
* of days from the start of the Julian calendar (~4713 B.C.)
*
* julian day is the ordinal day number of a day in a year.
*
* @param int64_t to fill
*/
void to_julian_day_number(int64_t *to) const;
/**
* Attempts to populate the Date instance based
* on the contents of a supplied Julian Day Number
*
* Returns whether the conversion was
* successful.
*
* @param Integer to convert from
*/
bool from_julian_day_number(const int64_t from);
/**
* Fills a supplied tm pointer with an
* representation of the Date
* value.
*
* @param tm to fill.
*/
virtual void to_tm(struct tm *to) const;
/**
* Attempts to populate the Date instance based
* on the contents of a supplied pointer to struct tm
* (broken time).
*
* Returns whether the conversion was
* successful.
*
* @param Pointe rto the struct tm to convert from
*/
virtual bool from_tm(const struct tm *from);
/**
* Attempts to convert the Date value into
* a supplied time_t.
*
* @param Pointer to a time_t to convert to
*/
virtual void to_time_t(time_t *to) const;
/**
* Attempts to populate the Date instance based
* on the contents of a supplied time_t
*
* Returns whether the conversion was
* successful.
*
* @param time_t to convert from
*/
virtual bool from_time_t(const time_t from);
/**
* Fills a supplied my_decimal with a representation of
* the Date value.
*
* @param Pointer to the my_decimal to fill
*/
virtual void to_decimal(my_decimal *to) const;
friend class TemporalInterval;
friend class Timestamp;
};
/* Forward declare needed for friendship */
class DateTime;
/**
* Class representing temporal components having only
* a time component, with no date structure
*/
class Time: public Temporal
{
public:
Time() :Temporal() {}
/* Maximum number of seconds in 23:59:59 (24 * 60 * 60) */
static const uint32_t MAX_CUMULATIVE_SECONDS= 86400L;
/**
* Comparison operator overloads to compare a Time against
* another Time value.
*
* @param Time to compare against.
*/
bool operator==(const Time &rhs);
bool operator!=(const Time &rhs);
bool operator>(const Time &rhs);
bool operator>=(const Time &rhs);
bool operator<(const Time &rhs);
bool operator<=(const Time &rhs);
/**
* Operator to add/subtract a Time from a Time.
* We can return a Time new temporal instance.
*
* @param Temporal instance to add/subtract to/from
*/
const Time operator-(const Time &rhs);
const Time operator+(const Time &rhs);
Time& operator-=(const Time &rhs);
Time& operator+=(const Time &rhs);
bool is_valid_date() const {return false;}
bool is_valid_datetime() const {return false;}
bool is_valid_time() const {return is_valid();}
bool is_valid_timestamp() const {return false;}
/** Returns whether the temporal value is valid date. */
bool is_valid() const;
/**
* Fills a supplied char string with a
* string representation of the Time
* value.
*
* @param C-String to fill
* @param Length of to C-String
* @returns length of string written (not including trailing '\0').
* If output was truncated, returns length that would have
* been outputted.
*/
int to_string(char *to, size_t to_len) const;
/**
* Maximum length of C-String needed to represent type
* (including '\0').
*/
static const int MAX_STRING_LENGTH= 9;
/**
* Attempts to populate the Time instance based
* on the contents of a supplied string.
*
* Returns whether the conversion was
* successful.
*
* @param String to convert from
* @param Length of supplied string
*/
bool from_string(const char *from, size_t from_len);
/**
* Fills a supplied 4-byte integer pointer with an
* integer representation of the Time
* value.
*
* @param Integer to fill.
*/
void to_int32_t(int32_t *to) const;
/**
* Attempts to populate the Time instance based
* on the contents of a supplied 4-byte integer.
*
* Returns whether the conversion was
* successful.
*
* @param Integer to convert from
*/
bool from_int32_t(const int32_t from);
/**
* Attempts to populate the Time instance based
* on the contents of a supplied time_t
*
* Returns whether the conversion was
* successful.
*
* @note
*
* We can only convert *from* a time_t, not back
* to a time_t since it would be a lossy conversion.
*
* @param time_t to convert from
*/
bool from_time_t(const time_t from);
/**
* Fills a supplied my_decimal with a representation of
* the Time value.
*
* @param Pointer to the my_decimal to fill
*/
void to_decimal(my_decimal *to) const;
friend class Date;
friend class DateTime;
};
/**
* Class representing temporal components in a valid
* SQL datetime range, including a time component
*/
class DateTime: public Date
{
public:
DateTime() :Date() {}
friend class TemporalInterval;
/** Returns whether the DateTime (or subclass) instance
* is in the Unix Epoch.
*/
bool in_unix_epoch() const;
/** Returns whether the temporal value is valid datetime. */
virtual bool is_valid() const;
/**
* It's not possible to convert to and from a DateTime and
* a 4-byte integer, so let us know if we try and do it!
*/
void to_int32_t(int32_t *) const {assert(0);}
bool from_int32_t(int32_t) {assert(0); return false;}
/**
* Fills a supplied char string with a
* string representation of the DateTime
* value.
*
* @param C-String to fill
* @param Length of to C-String
* @returns length of string written (not including trailing '\0').
* If output was truncated, returns length that would have
* been outputted.
*/
virtual int to_string(char *to, size_t to_len) const;
/**
* Maximum length of C-String needed to represent type
* (including '\0').
*/
static const int MAX_STRING_LENGTH= 27;
/**
* Attempts to populate the DateTime instance based
* on the contents of a supplied string.
*
* Returns whether the conversion was
* successful.
*
* @param String to convert from
* @param Length of supplied string
*/
bool from_string(const char *from, size_t from_len);
/**
* Fills a supplied 8-byte integer pointer with an
* integer representation of the DateTime
* value.
*
* @param Integer to fill.
*/
void to_int64_t(int64_t *to) const;
/**
* Attempts to populate the DateTime instance based
* on the contents of a supplied time_t
*
* Returns whether the conversion was
* successful.
*
* @param time_t to convert from
*/
bool from_time_t(const time_t from);
/**
* Attempts to populate the DateTime instance based
* on the contents of a supplied 8-byte integer.
*
* Returns whether the conversion was
* successful.
*
* @param Integer to convert from
* @param convert if conversion to canonical representation
* should be attempted
*/
bool from_int64_t(const int64_t from, bool convert);
bool from_int64_t(const int64_t from) {
return from_int64_t(from, true);
}
/**
* Fills a supplied tm pointer with an
* representation of the DateTime
* value.
*
* @param tm to fill.
*/
void to_tm(struct tm *to) const;
/**
* Fills a supplied my_decimal with a representation of
* the DateTime value.
*
* @param Pointer to the my_decimal to fill
*/
void to_decimal(my_decimal *to) const;
friend class Timestamp;
};
/**
* Class representing temporal components in the UNIX epoch
*/
class Timestamp: public DateTime
{
public:
Timestamp() :DateTime() {}
/**
* Comparison operator overloads to compare this against
* a Date value.
*
* @param Timestamp to compare against.
*/
bool operator==(const Date &rhs);
bool operator!=(const Date &rhs);
bool operator>(const Date &rhs);
bool operator>=(const Date &rhs);
bool operator<(const Date &rhs);
bool operator<=(const Date &rhs);
/**
* Comparison operator overloads to compare this against
* a DateTime value.
*
* @param DateTime to compare against.
*/
bool operator==(const DateTime &rhs);
bool operator!=(const DateTime &rhs);
bool operator>(const DateTime &rhs);
bool operator>=(const DateTime &rhs);
bool operator<(const DateTime &rhs);
bool operator<=(const DateTime &rhs);
/**
* Comparison operator overloads to compare this against
* another Timestamp value.
*
* @param Timestamp to compare against.
*/
bool operator==(const Timestamp &rhs);
bool operator!=(const Timestamp &rhs);
bool operator>(const Timestamp &rhs);
bool operator>=(const Timestamp &rhs);
bool operator<(const Timestamp &rhs);
bool operator<=(const Timestamp &rhs);
bool is_valid_timestamp() const {return is_valid();}
/** Returns whether the temporal value is valid timestamp. */
virtual bool is_valid() const;
/**
* Attempts to convert the Timestamp value into
* a supplied time_t.
*
* @param Pointer to a time_t to convert to
*/
void to_time_t(time_t *to) const;
};
/**
* Operator overload to an output stream for a Timestamp.
*/
std::ostream& operator<<(std::ostream& os, const Timestamp& subject);
/**
* Class representing temporal components in the UNIX epoch
* with an additional microsecond component.
*/
class MicroTimestamp: public Timestamp
{
public:
MicroTimestamp() :Timestamp() {}
/** Returns whether the temporal value is valid micro-timestamp. */
bool is_valid() const;
/**
* Fills a supplied char string with a
* string representation of the MicroTimestamp
* value.
*
* @param C-String to fill
* @param Length of to C-String
* @returns length of string written (not including trailing '\0').
* If output was truncated, returns length that would have
* been outputted.
*/
int to_string(char *to, size_t to_len) const;
/**
* Maximum length of C-String needed to represent type
* (including '\0').
*/
static const int MAX_STRING_LENGTH= 27;
/**
* Fills a supplied timeval pointer with an
* representation of the MicroTimestamp
* value.
*
* Returns whether the conversion was
* successful.
*
* @param timeval to fill.
*/
void to_timeval(struct timeval *to) const;
};
/**
* Class representing temporal components in the UNIX epoch
* with an additional nanosecond component.
*/
class NanoTimestamp: public Timestamp
{
public:
NanoTimestamp() :Timestamp() {}
/** Returns whether the temporal value is valid nano-timestamp. */
bool is_valid() const;
/**
* Fills a supplied timespec pointer with an
* representation of the NanoTimestamp
* value.
*
* Returns whether the conversion was
* successful.
*
* @param timespec to fill.
*/
void to_timespec(struct timespec *to) const;
};
} /* end namespace drizzled */
#endif /* DRIZZLED_TEMPORAL_H */
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