Files
@ r28549:6bc33bc6ee38
Branch filter:
Location: cpp/openttd-patchpack/source/src/timer/timer_game_common.cpp
r28549:6bc33bc6ee38
8.1 KiB
text/x-c
Codechange: Split dates and timers into Economy and Calendar time (#10700)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 | /*
* This file is part of OpenTTD.
* OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2.
* OpenTTD 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 OpenTTD. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file timer_game_common.cpp
* This file implements the common timer logic for the game-calendar timers.
*/
#include "../stdafx.h"
#include "timer_game_common.h"
#include "timer_game_calendar.h"
#include "timer_game_economy.h"
#include "../safeguards.h"
#define M(a, b) ((a << 5) | b)
static constexpr uint16_t _month_date_from_year_day[] = {
M(0, 1), M(0, 2), M(0, 3), M(0, 4), M(0, 5), M(0, 6), M(0, 7), M(0, 8), M(0, 9), M(0, 10), M(0, 11), M(0, 12), M(0, 13), M(0, 14), M(0, 15), M(0, 16), M(0, 17), M(0, 18), M(0, 19), M(0, 20), M(0, 21), M(0, 22), M(0, 23), M(0, 24), M(0, 25), M(0, 26), M(0, 27), M(0, 28), M(0, 29), M(0, 30), M(0, 31),
M(1, 1), M(1, 2), M(1, 3), M(1, 4), M(1, 5), M(1, 6), M(1, 7), M(1, 8), M(1, 9), M(1, 10), M(1, 11), M(1, 12), M(1, 13), M(1, 14), M(1, 15), M(1, 16), M(1, 17), M(1, 18), M(1, 19), M(1, 20), M(1, 21), M(1, 22), M(1, 23), M(1, 24), M(1, 25), M(1, 26), M(1, 27), M(1, 28), M(1, 29),
M(2, 1), M(2, 2), M(2, 3), M(2, 4), M(2, 5), M(2, 6), M(2, 7), M(2, 8), M(2, 9), M(2, 10), M(2, 11), M(2, 12), M(2, 13), M(2, 14), M(2, 15), M(2, 16), M(2, 17), M(2, 18), M(2, 19), M(2, 20), M(2, 21), M(2, 22), M(2, 23), M(2, 24), M(2, 25), M(2, 26), M(2, 27), M(2, 28), M(2, 29), M(2, 30), M(2, 31),
M(3, 1), M(3, 2), M(3, 3), M(3, 4), M(3, 5), M(3, 6), M(3, 7), M(3, 8), M(3, 9), M(3, 10), M(3, 11), M(3, 12), M(3, 13), M(3, 14), M(3, 15), M(3, 16), M(3, 17), M(3, 18), M(3, 19), M(3, 20), M(3, 21), M(3, 22), M(3, 23), M(3, 24), M(3, 25), M(3, 26), M(3, 27), M(3, 28), M(3, 29), M(3, 30),
M(4, 1), M(4, 2), M(4, 3), M(4, 4), M(4, 5), M(4, 6), M(4, 7), M(4, 8), M(4, 9), M(4, 10), M(4, 11), M(4, 12), M(4, 13), M(4, 14), M(4, 15), M(4, 16), M(4, 17), M(4, 18), M(4, 19), M(4, 20), M(4, 21), M(4, 22), M(4, 23), M(4, 24), M(4, 25), M(4, 26), M(4, 27), M(4, 28), M(4, 29), M(4, 30), M(4, 31),
M(5, 1), M(5, 2), M(5, 3), M(5, 4), M(5, 5), M(5, 6), M(5, 7), M(5, 8), M(5, 9), M(5, 10), M(5, 11), M(5, 12), M(5, 13), M(5, 14), M(5, 15), M(5, 16), M(5, 17), M(5, 18), M(5, 19), M(5, 20), M(5, 21), M(5, 22), M(5, 23), M(5, 24), M(5, 25), M(5, 26), M(5, 27), M(5, 28), M(5, 29), M(5, 30),
M(6, 1), M(6, 2), M(6, 3), M(6, 4), M(6, 5), M(6, 6), M(6, 7), M(6, 8), M(6, 9), M(6, 10), M(6, 11), M(6, 12), M(6, 13), M(6, 14), M(6, 15), M(6, 16), M(6, 17), M(6, 18), M(6, 19), M(6, 20), M(6, 21), M(6, 22), M(6, 23), M(6, 24), M(6, 25), M(6, 26), M(6, 27), M(6, 28), M(6, 29), M(6, 30), M(6, 31),
M(7, 1), M(7, 2), M(7, 3), M(7, 4), M(7, 5), M(7, 6), M(7, 7), M(7, 8), M(7, 9), M(7, 10), M(7, 11), M(7, 12), M(7, 13), M(7, 14), M(7, 15), M(7, 16), M(7, 17), M(7, 18), M(7, 19), M(7, 20), M(7, 21), M(7, 22), M(7, 23), M(7, 24), M(7, 25), M(7, 26), M(7, 27), M(7, 28), M(7, 29), M(7, 30), M(7, 31),
M(8, 1), M(8, 2), M(8, 3), M(8, 4), M(8, 5), M(8, 6), M(8, 7), M(8, 8), M(8, 9), M(8, 10), M(8, 11), M(8, 12), M(8, 13), M(8, 14), M(8, 15), M(8, 16), M(8, 17), M(8, 18), M(8, 19), M(8, 20), M(8, 21), M(8, 22), M(8, 23), M(8, 24), M(8, 25), M(8, 26), M(8, 27), M(8, 28), M(8, 29), M(8, 30),
M(9, 1), M(9, 2), M(9, 3), M(9, 4), M(9, 5), M(9, 6), M(9, 7), M(9, 8), M(9, 9), M(9, 10), M(9, 11), M(9, 12), M(9, 13), M(9, 14), M(9, 15), M(9, 16), M(9, 17), M(9, 18), M(9, 19), M(9, 20), M(9, 21), M(9, 22), M(9, 23), M(9, 24), M(9, 25), M(9, 26), M(9, 27), M(9, 28), M(9, 29), M(9, 30), M(9, 31),
M(10, 1), M(10, 2), M(10, 3), M(10, 4), M(10, 5), M(10, 6), M(10, 7), M(10, 8), M(10, 9), M(10, 10), M(10, 11), M(10, 12), M(10, 13), M(10, 14), M(10, 15), M(10, 16), M(10, 17), M(10, 18), M(10, 19), M(10, 20), M(10, 21), M(10, 22), M(10, 23), M(10, 24), M(10, 25), M(10, 26), M(10, 27), M(10, 28), M(10, 29), M(10, 30),
M(11, 1), M(11, 2), M(11, 3), M(11, 4), M(11, 5), M(11, 6), M(11, 7), M(11, 8), M(11, 9), M(11, 10), M(11, 11), M(11, 12), M(11, 13), M(11, 14), M(11, 15), M(11, 16), M(11, 17), M(11, 18), M(11, 19), M(11, 20), M(11, 21), M(11, 22), M(11, 23), M(11, 24), M(11, 25), M(11, 26), M(11, 27), M(11, 28), M(11, 29), M(11, 30), M(11, 31),
};
#undef M
enum DaysTillMonth {
ACCUM_JAN = 0,
ACCUM_FEB = ACCUM_JAN + 31,
ACCUM_MAR = ACCUM_FEB + 29,
ACCUM_APR = ACCUM_MAR + 31,
ACCUM_MAY = ACCUM_APR + 30,
ACCUM_JUN = ACCUM_MAY + 31,
ACCUM_JUL = ACCUM_JUN + 30,
ACCUM_AUG = ACCUM_JUL + 31,
ACCUM_SEP = ACCUM_AUG + 31,
ACCUM_OCT = ACCUM_SEP + 30,
ACCUM_NOV = ACCUM_OCT + 31,
ACCUM_DEC = ACCUM_NOV + 30,
};
/** Number of days to pass from the first day in the year before reaching the first of a month. */
static constexpr uint16_t _accum_days_for_month[] = {
ACCUM_JAN, ACCUM_FEB, ACCUM_MAR, ACCUM_APR,
ACCUM_MAY, ACCUM_JUN, ACCUM_JUL, ACCUM_AUG,
ACCUM_SEP, ACCUM_OCT, ACCUM_NOV, ACCUM_DEC,
};
/**
* Converts a Date to a Year, Month & Day.
* @param date the date to convert from
* @returns YearMonthDay representation of the Date.
*/
template <class T>
/* static */ typename TimerGame<T>::YearMonthDay TimerGame<T>::ConvertDateToYMD(Date date)
{
/* Year determination in multiple steps to account for leap
* years. First do the large steps, then the smaller ones.
*/
/* There are 97 leap years in 400 years */
Year yr = 400 * (date.base() / (TimerGameConst<T>::DAYS_IN_YEAR * 400 + 97));
int rem = date.base() % (TimerGameConst<T>::DAYS_IN_YEAR * 400 + 97);
if (rem >= TimerGameConst<T>::DAYS_IN_YEAR * 100 + 25) {
/* There are 25 leap years in the first 100 years after
* every 400th year, as every 400th year is a leap year */
yr += 100;
rem -= TimerGameConst<T>::DAYS_IN_YEAR * 100 + 25;
/* There are 24 leap years in the next couple of 100 years */
yr += 100 * (rem / (TimerGameConst<T>::DAYS_IN_YEAR * 100 + 24));
rem = (rem % (TimerGameConst<T>::DAYS_IN_YEAR * 100 + 24));
}
if (!IsLeapYear(yr) && rem >= TimerGameConst<T>::DAYS_IN_YEAR * 4) {
/* The first 4 year of the century are not always a leap year */
yr += 4;
rem -= TimerGameConst<T>::DAYS_IN_YEAR * 4;
}
/* There is 1 leap year every 4 years */
yr += 4 * (rem / (TimerGameConst<T>::DAYS_IN_YEAR * 4 + 1));
rem = rem % (TimerGameConst<T>::DAYS_IN_YEAR * 4 + 1);
/* The last (max 3) years to account for; the first one
* can be, but is not necessarily a leap year */
while (rem >= (IsLeapYear(yr) ? TimerGameConst<T>::DAYS_IN_LEAP_YEAR : TimerGameConst<T>::DAYS_IN_YEAR)) {
rem -= IsLeapYear(yr) ? TimerGameConst<T>::DAYS_IN_LEAP_YEAR : TimerGameConst<T>::DAYS_IN_YEAR;
yr++;
}
/* Skip the 29th of February in non-leap years */
if (!IsLeapYear(yr) && rem >= ACCUM_MAR - 1) rem++;
uint16_t x = _month_date_from_year_day[rem];
YearMonthDay ymd;
ymd.year = yr;
ymd.month = x >> 5;
ymd.day = x & 0x1F;
return ymd;
}
/**
* Converts a tuple of Year, Month and Day to a Date.
* @param year is a number between 0..MAX_YEAR
* @param month is a number between 0..11
* @param day is a number between 1..31
*/
template <class T>
/* static */ typename TimerGame<T>::Date TimerGame<T>::ConvertYMDToDate(Year year, Month month, Day day)
{
/* Day-offset in a leap year */
int days = _accum_days_for_month[month] + day - 1;
/* Account for the missing of the 29th of February in non-leap years */
if (!IsLeapYear(year) && days >= ACCUM_MAR) days--;
return DateAtStartOfYear(year) + days;
}
/* Create instances of the two template variants that we have.
* This is needed, as this templated functions are not in a header-file. */
template TimerGame<struct Calendar>::YearMonthDay TimerGame<struct Calendar>::ConvertDateToYMD(Date date);
template TimerGame<struct Economy>::YearMonthDay TimerGame<struct Economy>::ConvertDateToYMD(Date date);
template TimerGame<struct Calendar>::Date TimerGame<struct Calendar>::ConvertYMDToDate(Year year, Month month, Day day);
template TimerGame<struct Economy>::Date TimerGame<struct Economy>::ConvertYMDToDate(Year year, Month month, Day day);
|