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SqMod/source/Library/Chrono/Datetime.cpp
Sandu Liviu Catalin 2aa7e8b7c2 Furher implementation and improvement of the Chrono types and also exposed them to the module API.
Tighten the safety of exported functions to avoid exceptions leaking outside the host plugin.
2016-06-04 22:33:34 +03:00

827 lines
26 KiB
C++

// ------------------------------------------------------------------------------------------------
#include "Library/Chrono/Datetime.hpp"
#include "Library/Chrono/Date.hpp"
#include "Library/Chrono/Time.hpp"
#include "Library/Chrono/Timestamp.hpp"
#include "Base/Shared.hpp"
// ------------------------------------------------------------------------------------------------
namespace SqMod {
// ------------------------------------------------------------------------------------------------
SQChar Datetime::Delimiter = ' ';
SQChar Datetime::DateDelim = '-';
SQChar Datetime::TimeDelim = ':';
// ------------------------------------------------------------------------------------------------
SQInteger Datetime::Typename(HSQUIRRELVM vm)
{
static const SQChar name[] = _SC("SqDatetime");
sq_pushstring(vm, name, sizeof(name));
return 1;
}
// ------------------------------------------------------------------------------------------------
Int32 Datetime::Compare(const Datetime & o) const
{
if (m_Year < o.m_Year)
{
return -1;
}
else if (m_Year > o.m_Year)
{
return 1;
}
else if (m_Month < o.m_Month)
{
return -1;
}
else if (m_Month > o.m_Month)
{
return 1;
}
else if (m_Day < o.m_Day)
{
return -1;
}
else if (m_Day > o.m_Day)
{
return 1;
}
else if (m_Hour < o.m_Hour)
{
return -1;
}
else if (m_Hour > o.m_Hour)
{
return 1;
}
else if (m_Minute < o.m_Minute)
{
return -1;
}
else if (m_Minute > o.m_Minute)
{
return 1;
}
else if (m_Second < o.m_Second)
{
return -1;
}
else if (m_Second > o.m_Second)
{
return 1;
}
else if (m_Millisecond < o.m_Millisecond)
{
return -1;
}
else if (m_Millisecond == o.m_Millisecond)
{
return 0;
}
else
{
return 1;
}
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::operator + (const Datetime & o) const
{
// Add the components individually
return Datetime(o);
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::operator - (const Datetime & o) const
{
return Datetime(o);
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::operator * (const Datetime & o) const
{
return Datetime(o);
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::operator / (const Datetime & o) const
{
return Datetime(o);
}
// ------------------------------------------------------------------------------------------------
CSStr Datetime::ToString() const
{
return ToStrF("%04u%c%02u%c%02u%c%02u%c%02u%c%02u%c%u"
, m_Year, m_DateDelim, m_Month, m_DateDelim, m_Day
, m_Delimiter
, m_Hour, m_TimeDelim, m_Minute, m_TimeDelim, m_Second , m_TimeDelim, m_Millisecond
);
}
// ------------------------------------------------------------------------------------------------
void Datetime::Set(Uint16 year, Uint8 month, Uint8 day, Uint8 hour, Uint8 minute, Uint8 second, Uint16 millisecond)
{
// Validate the specified date
if (!Chrono::ValidDate(year, month, day))
{
STHROWF("Invalid date: %04u%c%02u%c%02u%c%u"
, m_Delimiter, m_Year
, m_Delimiter, m_Month
, m_Delimiter, m_Day
);
}
// Is the specified hour within range?
else if (hour >= 24)
{
STHROWF("Hour value is out of range: %u >= 24", hour);
}
// Is the specified minute within range?
else if (minute >= 60)
{
STHROWF("Minute value is out of range: %u >= 60", minute);
}
// Is the specified second within range?
else if (second >= 60)
{
STHROWF("Second value is out of range: %u >= 60", second);
}
// Is the specified millisecond within range?
else if (millisecond >= 1000)
{
STHROWF("Millisecond value is out of range: %u >= 1000", millisecond);
}
// Assign the specified values
m_Year = year;
m_Month = month;
m_Day = day;
m_Hour = hour;
m_Minute = minute;
m_Second = second;
m_Millisecond = millisecond;
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetStr(CSStr str)
{
// The format specifications that will be used to scan the string
static SQChar fs[] = _SC(" %u - %u - %u %u : %u : %u : %u ");
// Is the specified string empty?
if (!str || *str == '\0')
{
// Clear the values
m_Year = 0;
m_Month = 0;
m_Day = 0;
m_Hour = 0;
m_Minute = 0;
m_Second = 0;
m_Millisecond = 0;
// We're done here
return;
}
// Assign the specified delimiter
fs[4] = m_DateDelim;
fs[9] = m_DateDelim;
fs[14] = m_Delimiter;
fs[19] = m_TimeDelim;
fs[24] = m_TimeDelim;
fs[29] = m_TimeDelim;
// The sscanf function requires at least 32 bit integers
Uint32 year = 0, month = 0, day = 0, hour = 0, minute = 0, second = 0, milli = 0;
// Attempt to extract the component values from the specified string
sscanf(str, fs, &year, &month, &day, &hour, &minute, &second, &milli);
// Clamp the extracted values to the boundaries of associated type and assign them
Set(ClampL< Uint32, Uint8 >(year),
ClampL< Uint32, Uint8 >(month),
ClampL< Uint32, Uint8 >(day),
ClampL< Uint32, Uint8 >(hour),
ClampL< Uint32, Uint8 >(minute),
ClampL< Uint32, Uint8 >(second),
ClampL< Uint32, Uint16 >(milli)
);
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetDayOfYear(Uint16 doy)
{
// Reverse the given day of year to a full date
Date d = Chrono::ReverseDayOfyear(m_Year, doy);
// Set the obtained month
SetMonth(d.GetMonth());
// Set the obtained day
SetDay(d.GetDay());
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetYear(Uint16 year)
{
// Make sure the year is valid
if (!year)
{
STHROWF("Invalid year: %u", year);
}
// Assign the value
m_Year = year;
// Make sure the new date is valid
if (!Chrono::ValidDate(m_Year, m_Month, m_Day))
{
m_Month = 1;
m_Day = 1;
}
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetMonth(Uint8 month)
{
// Make sure the month is valid
if (month == 0 || month > 12)
{
STHROWF("Invalid month: %u", month);
}
// Assign the value
m_Month = month;
// Make sure the month days are in range
if (m_Day > Chrono::DaysInMonth(m_Year, m_Month))
{
m_Month = 1; // Fall back to the beginning of the month
}
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetDay(Uint8 day)
{
// Grab the amount of days in the current month
const Uint8 dim = Chrono::DaysInMonth(m_Year, m_Month);
// Make sure the day is valid
if (day == 0)
{
STHROWF("Invalid day: %u", day);
}
else if (day > dim)
{
STHROWF("Day is out of range: %u > %u", day, dim);
}
// Assign the value
m_Day = day;
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetHour(Uint8 hour)
{
// Is the specified hour within range?
if (hour >= 24)
{
STHROWF("Hour value is out of range: %u >= 24", hour);
}
// Now it's safe to assign the value
m_Hour = hour;
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetMinute(Uint8 minute)
{
// Is the specified minute within range?
if (minute >= 60)
{
STHROWF("Minute value is out of range: %u >= 60", minute);
}
// Now it's safe to assign the value
m_Minute = minute;
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetSecond(Uint8 second)
{
// Is the specified second within range?
if (second >= 60)
{
STHROWF("Second value is out of range: %u >= 60", second);
}
// Now it's safe to assign the value
m_Second = second;
}
// ------------------------------------------------------------------------------------------------
void Datetime::SetMillisecond(Uint16 millisecond)
{
// Is the specified millisecond within range?
if (millisecond >= 1000)
{
STHROWF("Millisecond value is out of range: %u >= 1000", millisecond);
}
// Now it's safe to assign the value
m_Millisecond = millisecond;
}
// ------------------------------------------------------------------------------------------------
Datetime & Datetime::AddYears(Int32 years)
{
// Do we have a valid amount of years?
if (years)
{
// Add the specified amount of years
SetYear(ConvTo< Uint16 >::From(static_cast< Int32 >(m_Year) + years));
}
// Allow chaining operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Datetime & Datetime::AddMonths(Int32 months)
{
// Do we have a valid amount of months?
if (months)
{
// Extract the number of years
Int32 years = static_cast< Int32 >(months / 12);
// Extract the number of months
months = (months % 12) + m_Month;
// Do we have extra months?
if (months >= 12)
{
// Increase the years
++years;
// Subtract one year from months
months %= 12;
}
else if (months < 0)
{
// Decrease the years
--years;
// Add one year to months
months = 12 - months;
}
// Are there any years to add?
if (years)
{
SetYear(ConvTo< Uint16 >::From(static_cast< Int32 >(m_Year) + years));
}
// Add the months
SetMonth(months);
}
// Allow chaining operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Datetime & Datetime::AddDays(Int32 days)
{
// Do we have a valid amount of days?
if (days)
{
// Whether the number of days is positive or negative
const Int32 dir = days > 0 ? 1 : -1;
// Grab current year
Int32 year = m_Year;
// Calculate the days in the current year
Int32 diy = Chrono::DaysInYear(year);
// Calculate the day of year
Int32 doy = GetDayOfYear() + days;
// Calculate the resulting years
while (doy > diy || doy < 0)
{
doy -= diy * dir;
year += dir;
diy = Chrono::DaysInYear(year);
}
// Set the obtained year
SetYear(year);
// Set the obtained day of year
SetDayOfYear(doy);
}
// Allow chaining operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Datetime & Datetime::AddHours(Int32 hours)
{
// Did we even add any hours?
if (hours)
{
// Extract the number of days
Int32 days = static_cast< Int32 >(hours / 24);
// Extract the number of hours
m_Hour += (hours % 24);
// Are the hours overlapping with the next day?
if (m_Hour >= 24)
{
// Increase the days
++days;
// Subtract one day from hours
m_Hour %= 24;
}
// Should we add any days?
if (days)
{
AddDays(days);
}
}
// Allow chaining operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Datetime & Datetime::AddMinutes(Int32 minutes)
{
// Did we even add any minutes?
if (minutes)
{
// Extract the number of hours
Int32 hours = static_cast< Int32 >(minutes / 60);
// Extract the number of minutes
m_Minute += (minutes % 60);
// Are the minutes overlapping with the next hour?
if (m_Minute >= 60)
{
// Increase the hours
++hours;
// Subtract one hour from minutes
m_Minute %= 60;
}
// Should we add any hours?
if (hours)
{
AddHours(hours);
}
}
// Allow chaining operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Datetime & Datetime::AddSeconds(Int32 seconds)
{
// Did we even add any seconds?
if (seconds)
{
// Extract the number of minutes
Int32 minutes = static_cast< Int32 >(seconds / 60);
// Extract the number of seconds
m_Second += (seconds % 60);
// Are the seconds overlapping with the next minute?
if (m_Second >= 60)
{
// Increase the minutes
++minutes;
// Subtract one minute from seconds
m_Second %= 60;
}
// Should we add any minutes?
if (minutes)
{
AddMinutes(minutes);
}
}
// Allow chaining operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Datetime & Datetime::AddMilliseconds(Int32 milliseconds)
{
// Did we even add any milliseconds?
if (milliseconds)
{
// Extract the number of seconds
Int32 seconds = static_cast< Int32 >(milliseconds / 1000);
// Extract the number of milliseconds
m_Millisecond += (milliseconds / 1000);
// Are the milliseconds overlapping with the next second?
if (m_Millisecond >= 1000)
{
// Increase the seconds
++seconds;
// Subtract one second from milliseconds
m_Millisecond %= 1000;
}
// Should we add any seconds?
if (seconds)
{
AddSeconds(seconds);
}
}
// Allow chaining operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::AndYears(Int32 years)
{
// Do we have a valid amount of years?
if (!years)
{
return Datetime(*this); // Return the date-time as is
}
// Replicate the current date
Datetime dt(*this);
// Add the specified amount of years
dt.SetYear(ConvTo< Uint16 >::From(static_cast< Int32 >(m_Year) + years));
// Return the resulted date
return dt;
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::AndMonths(Int32 months)
{
// Do we have a valid amount of months?
if (!months)
{
return Datetime(*this); // Return the date-time as is
}
// Extract the number of years
Int32 years = static_cast< Int32 >(months / 12);
// Extract the number of months
months = (months % 12) + m_Month;
// Do we have extra months?
if (months >= 12)
{
// Increase the years
++years;
// Subtract one year from months
months %= 12;
}
else if (months < 0)
{
// Decrease the years
--years;
// Add one year to months
months = 12 - months;
}
// Replicate the current date
Datetime dt(*this);
// Are there any years to add?
if (years)
{
dt.SetYear(ConvTo< Uint16 >::From(static_cast< Int32 >(m_Year) + years));
}
// Add the months
dt.SetMonth(months);
// Return the resulted date
return dt;
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::AndDays(Int32 days)
{
// Do we have a valid amount of days?
if (!days)
{
return Datetime(*this); // Return the date-time as is
}
// Whether the number of days is positive or negative
const Int32 dir = days > 0 ? 1 : -1;
// Grab current year
Int32 year = m_Year;
// Calculate the days in the current year
Int32 diy = Chrono::DaysInYear(year);
// Calculate the day of year
Int32 doy = GetDayOfYear() + days;
// Calculate the resulting years
while (doy > diy || doy < 0)
{
doy -= diy * dir;
year += dir;
diy = Chrono::DaysInYear(year);
}
// Replicate the current date
Datetime dt(*this);
// Set the obtained year
dt.SetYear(year);
// Set the obtained day of year
dt.SetDayOfYear(doy);
// Return the resulted date
return dt;
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::AndHours(Int32 hours)
{
// Did we even add any hours?
if (!hours)
{
return Datetime(*this); // Return the date-time as is
}
// Extract the number of days
Int32 days = static_cast< Int32 >(hours / 24);
// Extract the number of hours
hours = m_Hour + (hours % 24);
// Are the hours overlapping with the next day?
if (hours >= 24)
{
++days; // Increase the days
}
// Replicate the current time
Datetime dt(*this);
// Should we add any days?
if (days)
{
dt.AddDays(days);
}
// Assign the resulted hours
dt.m_Hour = (hours % 24);
// Return the result
return dt;
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::AndMinutes(Int32 minutes)
{
// Did we even added any minutes?
if (!minutes)
{
return Datetime(*this); // Return the date-time as is
}
// Extract the number of hours
Int32 hours = static_cast< Int32 >(minutes / 60);
// Extract the number of minutes
minutes = m_Minute + (minutes % 60);
// Are the minutes overlapping with the next hour?
if (minutes >= 60)
{
++hours; // Increase hours
}
// Replicate the current time
Datetime dt(*this);
// Should we add any hours?
if (hours)
{
dt.AddHours(hours);
}
// Assign the resulted minutes
dt.m_Minute = (minutes % 60);
// Return the result
return dt;
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::AndSeconds(Int32 seconds)
{
// Did we even added any seconds?
if (!seconds)
{
return Datetime(*this); // Return the date-time as is
}
// Extract the number of minutes
Int32 minutes = static_cast< Int32 >(seconds / 60);
// Extract the number of seconds
seconds = m_Second + (seconds % 60);
// Are the seconds overlapping with the next minute?
if (seconds >= 60)
{
++minutes; // Increase minutes
}
// Replicate the current time
Datetime dt(*this);
// Should we add any minutes?
if (minutes)
{
dt.AddMinutes(minutes);
}
// Assign the resulted seconds
dt.m_Second = (seconds % 60);
// Return the result
return dt;
}
// ------------------------------------------------------------------------------------------------
Datetime Datetime::AndMilliseconds(Int32 milliseconds)
{
// Did we even added any milliseconds?
if (!milliseconds)
{
return Datetime(*this); // Return the date-time as is
}
// Extract the number of seconds
Int32 seconds = static_cast< Int32 >(milliseconds / 1000);
// Extract the number of milliseconds
milliseconds = m_Millisecond + (milliseconds % 1000);
// Are the milliseconds overlapping with the next second?
if (milliseconds >= 1000)
{
++seconds; // Increase seconds
}
// Replicate the current time
Datetime dt(*this);
// Should we add any seconds?
if (seconds)
{
dt.AddSeconds(seconds);
}
// Assign the resulted milliseconds
dt.m_Millisecond = (milliseconds % 1000);
// Return the result
return dt;
}
// ------------------------------------------------------------------------------------------------
Date Datetime::GetDate() const
{
return Date(m_Year, m_Month, m_Day);
}
// ------------------------------------------------------------------------------------------------
Time Datetime::GetTime() const
{
return Time(m_Hour, m_Minute, m_Second, m_Millisecond);
}
// ------------------------------------------------------------------------------------------------
Timestamp Datetime::GetTimestamp() const
{
// Calculate the current day of the year
Int32 days = Chrono::DayOfYear(m_Year, m_Month, m_Day);
// Calculate all days till the current year
for (Int32 year = 0; year < m_Year; --year)
{
days += Chrono::DaysInYear(year);
}
// Calculate the microseconds in the resulted days
Int64 ms = static_cast< Int64 >(days * 86400000000LL);
// Calculate the microseconds in the current time
ms += static_cast< Int64 >(m_Hour * 3600000000LL);
ms += static_cast< Int64 >(m_Minute * 60000000L);
ms += static_cast< Int64 >(m_Second * 1000000L);
ms += static_cast< Int64 >(m_Millisecond * 1000L);
// Return the resulted timestamp
return Timestamp(ms);
}
// ================================================================================================
void Register_ChronoDatetime(HSQUIRRELVM vm, Table & /*cns*/)
{
RootTable(vm).Bind(_SC("SqDatetime"), Class< Datetime >(vm, _SC("SqDatetime"))
// Constructors
.Ctor()
.Ctor< Uint16 >()
.Ctor< Uint16, Uint8 >()
.Ctor< Uint16, Uint8, Uint8 >()
.Ctor< Uint16, Uint8, Uint8, Uint8 >()
.Ctor< Uint16, Uint8, Uint8, Uint8, Uint8 >()
.Ctor< Uint16, Uint8, Uint8, Uint8, Uint8, Uint8 >()
.Ctor< Uint16, Uint8, Uint8, Uint8, Uint8, Uint8, Uint16 >()
// Static Properties
.SetStaticValue(_SC("GlobalDelimiter"), &Datetime::Delimiter)
.SetStaticValue(_SC("GlobalDateDelim"), &Datetime::DateDelim)
.SetStaticValue(_SC("GlobalTimeDelim"), &Datetime::TimeDelim)
// Core Meta-methods
.Func(_SC("_tostring"), &Datetime::ToString)
.SquirrelFunc(_SC("_typename"), &Datetime::Typename)
.Func(_SC("_cmp"), &Datetime::Cmp)
// Meta-methods
.Func< Datetime (Datetime::*)(const Datetime &) const >(_SC("_add"), &Datetime::operator +)
.Func< Datetime (Datetime::*)(const Datetime &) const >(_SC("_sub"), &Datetime::operator -)
.Func< Datetime (Datetime::*)(const Datetime &) const >(_SC("_mul"), &Datetime::operator *)
.Func< Datetime (Datetime::*)(const Datetime &) const >(_SC("_div"), &Datetime::operator /)
// Properties
.Prop(_SC("Delimiter"), &Datetime::GetDelimiter, &Datetime::SetDelimiter)
.Prop(_SC("DateDelim"), &Datetime::GetDateDelim, &Datetime::SetDateDelim)
.Prop(_SC("TimeDelim"), &Datetime::GetTimeDelim, &Datetime::SetTimeDelim)
.Prop(_SC("Str"), &Datetime::GetStr, &Datetime::SetStr)
.Prop(_SC("DayOfYear"), &Datetime::GetDayOfYear, &Datetime::SetDayOfYear)
.Prop(_SC("Year"), &Datetime::GetYear, &Datetime::SetYear)
.Prop(_SC("Month"), &Datetime::GetMonth, &Datetime::SetMonth)
.Prop(_SC("Day"), &Datetime::GetDay, &Datetime::SetDay)
.Prop(_SC("Hour"), &Datetime::GetHour, &Datetime::SetHour)
.Prop(_SC("Minute"), &Datetime::GetMinute, &Datetime::SetMinute)
.Prop(_SC("Second"), &Datetime::GetSecond, &Datetime::SetSecond)
.Prop(_SC("Millisecond"), &Datetime::GetMillisecond, &Datetime::SetMillisecond)
.Prop(_SC("LeapYear"), &Datetime::IsThisLeapYear)
.Prop(_SC("YearDays"), &Datetime::GetYearDays)
.Prop(_SC("MonthDays"), &Datetime::GetMonthDays)
.Prop(_SC("Date"), &Datetime::GetDate)
.Prop(_SC("Time"), &Datetime::GetTime)
.Prop(_SC("Timestamp"), &Datetime::GetTimestamp)
// Member Methods
.Func(_SC("AddYears"), &Datetime::AddYears)
.Func(_SC("AddMonths"), &Datetime::AddMonths)
.Func(_SC("AddDays"), &Datetime::AddDays)
.Func(_SC("AddHours"), &Datetime::AddHours)
.Func(_SC("AddMinutes"), &Datetime::AddMinutes)
.Func(_SC("AddSeconds"), &Datetime::AddSeconds)
.Func(_SC("AddMillis"), &Datetime::AddMilliseconds)
.Func(_SC("AddMilliseconds"), &Datetime::AddMilliseconds)
.Func(_SC("AndYears"), &Datetime::AndYears)
.Func(_SC("AndMonths"), &Datetime::AndMonths)
.Func(_SC("AndDays"), &Datetime::AndDays)
.Func(_SC("AndHours"), &Datetime::AndHours)
.Func(_SC("AndMinutes"), &Datetime::AndMinutes)
.Func(_SC("AndSeconds"), &Datetime::AndSeconds)
.Func(_SC("AndMillis"), &Datetime::AndMilliseconds)
.Func(_SC("AndMilliseconds"), &Datetime::AndMilliseconds)
// Overloaded Methods
.Overload< void (Datetime::*)(Uint16) >(_SC("Set"), &Datetime::Set)
.Overload< void (Datetime::*)(Uint16, Uint8) >(_SC("Set"), &Datetime::Set)
.Overload< void (Datetime::*)(Uint16, Uint8, Uint8) >(_SC("Set"), &Datetime::Set)
.Overload< void (Datetime::*)(Uint16, Uint8, Uint8, Uint8) >(_SC("Set"), &Datetime::Set)
.Overload< void (Datetime::*)(Uint16, Uint8, Uint8, Uint8, Uint8) >(_SC("Set"), &Datetime::Set)
.Overload< void (Datetime::*)(Uint16, Uint8, Uint8, Uint8, Uint8, Uint8) >(_SC("Set"), &Datetime::Set)
.Overload< void (Datetime::*)(Uint16, Uint8, Uint8, Uint8, Uint8, Uint8, Uint16) >(_SC("Set"), &Datetime::Set)
);
}
} // Namespace:: SqMod