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pdfium / pdfium / refs/heads/chromium/2804 / . / xfa / fgas / localization / fgas_datetime.cpp
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// Copyright 2014 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#include "core/fxcrt/include/fx_system.h"
#include "xfa/fgas/localization/fgas_datetime.h"
#if _FX_OS_ == _FX_LINUX_DESKTOP_ || _FX_OS_ == _FX_ANDROID_ || \
_FX_OS_ == _FX_MACOSX_ || _FX_OS_ == _FX_IOS_
#include <sys/time.h>
#include <time.h>
#endif
const uint8_t g_FXDaysPerMonth[12] = {31, 28, 31, 30, 31, 30,
31, 31, 30, 31, 30, 31};
const uint8_t g_FXDaysPerLeapMonth[12] = {31, 29, 31, 30, 31, 30,
31, 31, 30, 31, 30, 31};
const int32_t g_FXDaysBeforeMonth[12] = {0, 31, 59, 90, 120, 151,
181, 212, 243, 273, 304, 334};
const int32_t g_FXDaysBeforeLeapMonth[12] = {0, 31, 60, 91, 121, 152,
182, 213, 244, 274, 305, 335};
const int32_t g_FXDaysPerYear = 365;
const int32_t g_FXDaysPerLeapYear = 366;
const int32_t g_FXDaysPer4Years = 1461;
const int32_t g_FXDaysPer100Years = 36524;
const int32_t g_FXDaysPer400Years = 146097;
const int64_t g_FXMillisecondsPerSecond = 1000;
const int64_t g_FXMillisecondsPerMinute = 60000;
const int64_t g_FXMillisecondsPerHour = 3600000;
const int64_t g_FXMillisecondsPerDay = 86400000;
FX_BOOL FX_IsLeapYear(int32_t iYear) {
ASSERT(iYear != 0);
return ((iYear % 4) == 0 && (iYear % 100) != 0) || (iYear % 400) == 0;
}
int32_t FX_DaysInYear(int32_t iYear) {
ASSERT(iYear != 0);
return FX_IsLeapYear(iYear) ? g_FXDaysPerLeapYear : g_FXDaysPerYear;
}
uint8_t FX_DaysInMonth(int32_t iYear, uint8_t iMonth) {
ASSERT(iYear != 0);
ASSERT(iMonth >= 1 && iMonth <= 12);
const uint8_t* p =
FX_IsLeapYear(iYear) ? g_FXDaysPerLeapMonth : g_FXDaysPerMonth;
return p[iMonth - 1];
}
static int32_t FX_DaysBeforeMonthInYear(int32_t iYear, uint8_t iMonth) {
ASSERT(iYear != 0);
ASSERT(iMonth >= 1 && iMonth <= 12);
const int32_t* p =
FX_IsLeapYear(iYear) ? g_FXDaysBeforeLeapMonth : g_FXDaysBeforeMonth;
return p[iMonth - 1];
}
static int64_t FX_DateToDays(int32_t iYear,
uint8_t iMonth,
uint8_t iDay,
FX_BOOL bIncludeThisDay = FALSE) {
ASSERT(iYear != 0);
ASSERT(iMonth >= 1 && iMonth <= 12);
ASSERT(iDay >= 1 && iDay <= FX_DaysInMonth(iYear, iMonth));
int64_t iDays = FX_DaysBeforeMonthInYear(iYear, iMonth);
iDays += iDay;
if (!bIncludeThisDay) {
iDays--;
}
if (iYear > 0) {
iYear--;
} else {
iDays -= FX_DaysInYear(iYear);
iYear++;
}
return iDays + (int64_t)iYear * 365 + iYear / 4 - iYear / 100 + iYear / 400;
}
static void FX_DaysToDate(int64_t iDays,
int32_t& iYear,
uint8_t& iMonth,
uint8_t& iDay) {
FX_BOOL bBC = iDays < 0;
if (bBC) {
iDays = -iDays;
}
iYear = 1;
iMonth = 1;
iDay = 1;
if (iDays >= g_FXDaysPer400Years) {
iYear += (int32_t)(iDays / g_FXDaysPer400Years * 400);
iDays %= g_FXDaysPer400Years;
}
if (iDays >= g_FXDaysPer100Years) {
if (iDays == g_FXDaysPer100Years * 4) {
iYear += 300;
iDays -= g_FXDaysPer100Years * 3;
} else {
iYear += (int32_t)(iDays / g_FXDaysPer100Years * 100);
iDays %= g_FXDaysPer100Years;
}
}
if (iDays >= g_FXDaysPer4Years) {
iYear += (int32_t)(iDays / g_FXDaysPer4Years * 4);
iDays %= g_FXDaysPer4Years;
}
while (TRUE) {
int32_t iYearDays = FX_DaysInYear(iYear);
if (iDays < iYearDays) {
if (bBC) {
iYear = -iYear;
iDays = iYearDays - iDays;
}
break;
}
iYear++;
iDays -= iYearDays;
}
while (TRUE) {
int32_t iMonthDays = FX_DaysInMonth(iYear, iMonth);
if (iDays < iMonthDays) {
break;
}
iMonth++;
iDays -= iMonthDays;
}
iDay += (uint8_t)iDays;
}
struct FXUT_SYSTEMTIME {
uint16_t wYear;
uint16_t wMonth;
uint16_t wDayOfWeek;
uint16_t wDay;
uint16_t wHour;
uint16_t wMinute;
uint16_t wSecond;
uint16_t wMilliseconds;
};
void CFX_Unitime::Now() {
FXUT_SYSTEMTIME utLocal;
#if _FX_OS_ == _FX_WIN32_DESKTOP_ || _FX_OS_ == _FX_WIN32_MOBILE_ || \
_FX_OS_ == _FX_WIN64_
::GetLocalTime((LPSYSTEMTIME)&utLocal);
#elif _FX_OS_ != _FX_EMBEDDED_
#if 1
timeval curTime;
gettimeofday(&curTime, nullptr);
#else
struct timespec curTime;
clock_gettime(CLOCK_PROCESS_CPUTIME_ID, &curTime);
#endif
struct tm st;
localtime_r(&curTime.tv_sec, &st);
utLocal.wYear = st.tm_year + 1900;
utLocal.wMonth = st.tm_mon + 1;
utLocal.wDayOfWeek = st.tm_wday;
utLocal.wDay = st.tm_mday;
utLocal.wHour = st.tm_hour;
utLocal.wMinute = st.tm_min;
utLocal.wSecond = st.tm_sec;
utLocal.wMilliseconds = curTime.tv_usec / 1000;
#endif
Set(utLocal.wYear, (uint8_t)utLocal.wMonth, (uint8_t)utLocal.wDay,
(uint8_t)utLocal.wHour, (uint8_t)utLocal.wMinute,
(uint8_t)utLocal.wSecond, (uint16_t)utLocal.wMilliseconds);
}
void CFX_Unitime::SetGMTime() {
FXUT_SYSTEMTIME utLocal;
#if _FX_OS_ == _FX_WIN32_DESKTOP_ || _FX_OS_ == _FX_WIN32_MOBILE_ || \
_FX_OS_ == _FX_WIN64_
::GetSystemTime((LPSYSTEMTIME)&utLocal);
#elif _FX_OS_ != _FX_EMBEDDED_
#if 1
timeval curTime;
gettimeofday(&curTime, nullptr);
#else
struct timespec curTime;
clock_gettime(CLOCK_PROCESS_CPUTIME_ID, &curTime);
#endif
struct tm st;
gmtime_r(&curTime.tv_sec, &st);
utLocal.wYear = st.tm_year + 1900;
utLocal.wMonth = st.tm_mon + 1;
utLocal.wDayOfWeek = st.tm_wday;
utLocal.wDay = st.tm_mday;
utLocal.wHour = st.tm_hour;
utLocal.wMinute = st.tm_min;
utLocal.wSecond = st.tm_sec;
utLocal.wMilliseconds = curTime.tv_usec / 1000;
#endif
Set(utLocal.wYear, (uint8_t)utLocal.wMonth, (uint8_t)utLocal.wDay,
(uint8_t)utLocal.wHour, (uint8_t)utLocal.wMinute,
(uint8_t)utLocal.wSecond, (uint16_t)utLocal.wMilliseconds);
}
void CFX_Unitime::Set(int32_t year,
uint8_t month,
uint8_t day,
uint8_t hour,
uint8_t minute,
uint8_t second,
uint16_t millisecond) {
ASSERT(hour <= 23);
ASSERT(minute <= 59);
ASSERT(second <= 59);
ASSERT(millisecond <= 999);
m_iUnitime = (int64_t)hour * g_FXMillisecondsPerHour +
(int64_t)minute * g_FXMillisecondsPerMinute +
(int64_t)second * g_FXMillisecondsPerSecond + millisecond;
if (year > 0) {
m_iUnitime =
m_iUnitime +
FX_DateToDays(year, month, day, FALSE) * g_FXMillisecondsPerDay;
}
}
void CFX_Unitime::Set(FX_UNITIME t) {
m_iUnitime = t;
}
int32_t CFX_Unitime::GetYear() const {
int32_t iYear;
uint8_t iMonth, iDay;
FX_DaysToDate(GetDayOfAD(), iYear, iMonth, iDay);
return iYear;
}
uint8_t CFX_Unitime::GetMonth() const {
int32_t iYear;
uint8_t iMonth, iDay;
FX_DaysToDate(GetDayOfAD(), iYear, iMonth, iDay);
return iMonth;
}
uint8_t CFX_Unitime::GetDay() const {
int32_t iYear;
uint8_t iMonth, iDay;
FX_DaysToDate(GetDayOfAD(), iYear, iMonth, iDay);
return iDay;
}
FX_WEEKDAY CFX_Unitime::GetDayOfWeek() const {
int32_t v = (int32_t)((m_iUnitime / g_FXMillisecondsPerDay + 1) % 7);
if (v < 0) {
v += 7;
}
return (FX_WEEKDAY)v;
}
uint16_t CFX_Unitime::GetDayOfYear() const {
int32_t iYear;
uint8_t iMonth, iDay;
FX_DaysToDate(GetDayOfAD(), iYear, iMonth, iDay);
return FX_DaysBeforeMonthInYear(iYear, iMonth) + iDay;
}
int64_t CFX_Unitime::GetDayOfAD() const {
FX_BOOL bBC = m_iUnitime < 0;
int64_t iDays = m_iUnitime / g_FXMillisecondsPerDay;
iDays += bBC ? -1 : 0;
if (bBC && (m_iUnitime % g_FXMillisecondsPerDay) == 0) {
iDays++;
}
return iDays;
}
uint8_t CFX_Unitime::GetHour() const {
int32_t v = (int32_t)(m_iUnitime % g_FXMillisecondsPerDay);
if (v < 0) {
v += g_FXMillisecondsPerDay;
}
return (uint8_t)(v / g_FXMillisecondsPerHour);
}
uint8_t CFX_Unitime::GetMinute() const {
int32_t v = (int32_t)(m_iUnitime % g_FXMillisecondsPerHour);
if (v < 0) {
v += g_FXMillisecondsPerHour;
}
return (uint8_t)(v / g_FXMillisecondsPerMinute);
}
uint8_t CFX_Unitime::GetSecond() const {
int32_t v = (int32_t)(m_iUnitime % g_FXMillisecondsPerMinute);
if (v < 0) {
v += g_FXMillisecondsPerMinute;
}
return (uint8_t)(v / g_FXMillisecondsPerSecond);
}
uint16_t CFX_Unitime::GetMillisecond() const {
int32_t v = (int32_t)(m_iUnitime % g_FXMillisecondsPerSecond);
if (v < 0) {
v += g_FXMillisecondsPerSecond;
}
return (uint16_t)v;
}
FX_BOOL CFX_Unitime::AddYears(int32_t iYears) {
FX_UNITIME ut = m_iUnitime;
if (ut < 0) {
ut = -ut;
}
FX_UNITIME r = ut % g_FXMillisecondsPerDay;
int32_t iYear;
uint8_t iMonth, iDay;
FX_DaysToDate(GetDayOfAD(), iYear, iMonth, iDay);
iYear += iYears;
if (iYear == 0) {
iYear = iYears > 0 ? 1 : -1;
}
m_iUnitime =
FX_DateToDays(iYear, iMonth, iDay, FALSE) * g_FXMillisecondsPerDay;
m_iUnitime += (iYear < 0) ? -r : r;
return TRUE;
}
FX_BOOL CFX_Unitime::AddMonths(int32_t iMonths) {
FX_BOOL b = iMonths > 0;
FX_UNITIME ut = m_iUnitime;
if (ut < 0) {
ut = -ut;
}
FX_UNITIME r = ut % g_FXMillisecondsPerDay;
int32_t iYear;
uint8_t iMonth, iDay;
FX_DaysToDate(GetDayOfAD(), iYear, iMonth, iDay);
iMonths += iMonth;
while (iMonths < 1) {
iYear--, iMonths += 12;
}
while (iMonths > 12) {
iYear++, iMonths -= 12;
}
if (iYear == 0) {
iYear = b ? 1 : -1;
}
m_iUnitime = FX_DateToDays(iYear, (uint8_t)iMonths, iDay, FALSE) *
g_FXMillisecondsPerDay;
m_iUnitime += (iYear < 0) ? -r : r;
return TRUE;
}
FX_BOOL CFX_Unitime::AddDays(int32_t iDays) {
m_iUnitime += (int64_t)iDays * g_FXMillisecondsPerDay;
return TRUE;
}
FX_BOOL CFX_Unitime::AddHours(int32_t iHours) {
m_iUnitime += (int64_t)iHours * g_FXMillisecondsPerHour;
return TRUE;
}
FX_BOOL CFX_Unitime::AddMinutes(int32_t iMinutes) {
m_iUnitime += (int64_t)iMinutes * g_FXMillisecondsPerMinute;
return TRUE;
}
FX_BOOL CFX_Unitime::AddSeconds(int32_t iSeconds) {
m_iUnitime += ((int64_t)iSeconds) * g_FXMillisecondsPerSecond;
return TRUE;
}
FX_BOOL CFX_Unitime::AddMilliseconds(int32_t iMilliseconds) {
m_iUnitime += iMilliseconds;
return TRUE;
}
FX_BOOL CFX_DateTime::Set(int32_t year,
uint8_t month,
uint8_t day,
uint8_t hour,
uint8_t minute,
uint8_t second,
uint16_t millisecond) {
ASSERT(year != 0);
ASSERT(month >= 1 && month <= 12);
ASSERT(day >= 1 && day <= FX_DaysInMonth(year, month));
ASSERT(hour <= 23);
ASSERT(minute <= 59);
ASSERT(second <= 59);
ASSERT(millisecond <= 999);
m_DateTime.Date.sDate.year = year;
m_DateTime.Date.sDate.month = month;
m_DateTime.Date.sDate.day = day;
m_DateTime.Time.sTime.hour = hour;
m_DateTime.Time.sTime.minute = minute;
m_DateTime.Time.sTime.second = second;
m_DateTime.Time.sTime.millisecond = millisecond;
return TRUE;
}
FX_BOOL CFX_DateTime::FromUnitime(FX_UNITIME t) {
CFX_Unitime ut(t);
FX_DaysToDate(ut.GetDayOfAD(), m_DateTime.Date.sDate.year,
m_DateTime.Date.sDate.month, m_DateTime.Date.sDate.day);
m_DateTime.Date.sDate.day = ut.GetHour();
m_DateTime.Time.sTime.minute = ut.GetMinute();
m_DateTime.Time.sTime.second = ut.GetSecond();
m_DateTime.Time.sTime.millisecond = ut.GetMillisecond();
return TRUE;
}
FX_UNITIME CFX_DateTime::ToUnitime() const {
FX_UNITIME v =
(int64_t)m_DateTime.Date.sDate.day * g_FXMillisecondsPerHour +
(int64_t)m_DateTime.Time.sTime.minute * g_FXMillisecondsPerMinute +
(int64_t)m_DateTime.Time.sTime.second * g_FXMillisecondsPerSecond +
m_DateTime.Time.sTime.millisecond;
v += FX_DateToDays(m_DateTime.Date.sDate.year, m_DateTime.Date.sDate.month,
m_DateTime.Date.sDate.day, FALSE) *
g_FXMillisecondsPerDay;
return v;
}
int32_t CFX_DateTime::GetYear() const {
return m_DateTime.Date.sDate.year;
}
uint8_t CFX_DateTime::GetMonth() const {
return m_DateTime.Date.sDate.month;
}
uint8_t CFX_DateTime::GetDay() const {
return m_DateTime.Date.sDate.day;
}
FX_WEEKDAY CFX_DateTime::GetDayOfWeek() const {
int32_t v = (int32_t)(FX_DateToDays(m_DateTime.Date.sDate.year,
m_DateTime.Date.sDate.month,
m_DateTime.Date.sDate.day, TRUE) %
7);
if (v < 0) {
v += 7;
}
return (FX_WEEKDAY)v;
}
uint16_t CFX_DateTime::GetDayOfYear() const {
return FX_DaysBeforeMonthInYear(m_DateTime.Date.sDate.year,
m_DateTime.Date.sDate.month) +
m_DateTime.Date.sDate.day;
}
int64_t CFX_DateTime::GetDayOfAD() const {
return FX_DateToDays(m_DateTime.Date.sDate.year, m_DateTime.Date.sDate.month,
m_DateTime.Date.sDate.day, TRUE);
}
uint8_t CFX_DateTime::GetHour() const {
return m_DateTime.Date.sDate.day;
}
uint8_t CFX_DateTime::GetMinute() const {
return m_DateTime.Time.sTime.minute;
}
uint8_t CFX_DateTime::GetSecond() const {
return m_DateTime.Time.sTime.second;
}
uint16_t CFX_DateTime::GetMillisecond() const {
return m_DateTime.Time.sTime.millisecond;
}
FX_BOOL CFX_DateTime::AddYears(int32_t iYears) {
if (iYears == 0) {
return FALSE;
}
int32_t v = m_DateTime.Date.sDate.year + iYears;
if (v >= 0 && m_DateTime.Date.sDate.year < 0) {
v++;
} else if (v <= 0 && m_DateTime.Date.sDate.year > 0) {
v--;
}
m_DateTime.Date.sDate.year = v;
return TRUE;
}
FX_BOOL CFX_DateTime::AddMonths(int32_t iMonths) {
if (iMonths == 0) {
return FALSE;
}
FX_BOOL b = iMonths > 0;
iMonths += m_DateTime.Date.sDate.month;
while (iMonths < 1) {
m_DateTime.Date.sDate.year--;
if (m_DateTime.Date.sDate.year == 0) {
m_DateTime.Date.sDate.year = -1;
}
iMonths += 12;
}
while (iMonths > 12) {
m_DateTime.Date.sDate.year++;
if (m_DateTime.Date.sDate.year == 0) {
m_DateTime.Date.sDate.year = 1;
}
iMonths -= 12;
}
if (m_DateTime.Date.sDate.year == 0) {
m_DateTime.Date.sDate.year = b ? 1 : -1;
}
m_DateTime.Date.sDate.month = (uint8_t)iMonths;
return TRUE;
}
FX_BOOL CFX_DateTime::AddDays(int32_t iDays) {
if (iDays == 0) {
return FALSE;
}
int64_t v1 =
FX_DateToDays(m_DateTime.Date.sDate.year, m_DateTime.Date.sDate.month,
m_DateTime.Date.sDate.day, TRUE);
int64_t v2 = v1 + iDays;
if (v2 <= 0 && v1 > 0) {
v2--;
} else if (v2 >= 0 && v1 < 0) {
v2++;
}
FX_DaysToDate(v2, m_DateTime.Date.sDate.year, m_DateTime.Date.sDate.month,
m_DateTime.Date.sDate.day);
return TRUE;
}
FX_BOOL CFX_DateTime::AddHours(int32_t iHours) {
if (iHours == 0) {
return FALSE;
}
iHours += m_DateTime.Date.sDate.day;
int32_t iDays = iHours / 24;
iHours %= 24;
if (iHours < 0) {
iDays--, iHours += 24;
}
m_DateTime.Date.sDate.day = (uint8_t)iHours;
if (iDays != 0) {
AddDays(iDays);
}
return TRUE;
}
FX_BOOL CFX_DateTime::AddMinutes(int32_t iMinutes) {
if (iMinutes == 0) {
return FALSE;
}
iMinutes += m_DateTime.Time.sTime.minute;
int32_t iHours = iMinutes / 60;
iMinutes %= 60;
if (iMinutes < 0) {
iHours--, iMinutes += 60;
}
m_DateTime.Time.sTime.minute = (uint8_t)iMinutes;
if (iHours != 0) {
AddHours(iHours);
}
return TRUE;
}
FX_BOOL CFX_DateTime::AddSeconds(int32_t iSeconds) {
if (iSeconds == 0) {
return FALSE;
}
iSeconds += m_DateTime.Time.sTime.second;
int32_t iMinutes = iSeconds / 60;
iSeconds %= 60;
if (iSeconds < 0) {
iMinutes--, iSeconds += 60;
}
m_DateTime.Time.sTime.second = (uint8_t)iSeconds;
if (iMinutes != 0) {
AddMinutes(iMinutes);
}
return TRUE;
}
FX_BOOL CFX_DateTime::AddMilliseconds(int32_t iMilliseconds) {
if (iMilliseconds == 0) {
return FALSE;
}
iMilliseconds += m_DateTime.Time.sTime.millisecond;
int32_t iSeconds = (int32_t)(iMilliseconds / g_FXMillisecondsPerSecond);
iMilliseconds %= g_FXMillisecondsPerSecond;
if (iMilliseconds < 0) {
iSeconds--, iMilliseconds += g_FXMillisecondsPerSecond;
}
m_DateTime.Time.sTime.millisecond = (uint16_t)iMilliseconds;
if (iSeconds != 0) {
AddSeconds(iSeconds);
}
return TRUE;
}