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 *  Copyright (c) 2014-2019 Appsicle
 *  Copyright (c) 2019-2020 QuestDB
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 *  you may not use this file except in compliance with the License.
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 *
 *  http://www.apache.org/licenses/LICENSE-2.0
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 *  Unless required by applicable law or agreed to in writing, software
 *  distributed under the License is distributed on an "AS IS" BASIS,
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package io.questdb.std.datetime.millitime;

import io.questdb.std.Chars;
import io.questdb.std.Misc;
import io.questdb.std.Numbers;
import io.questdb.std.NumericException;
import io.questdb.std.str.StringSink;

final public class Dates {

    public static final long DAY_MILLIS = 86400000L;
    public static final long HOUR_MILLIS = 3600000L;
    public static final long MINUTE_MILLIS = 60000;
    public static final long SECOND_MILLIS = 1000;
    public static final int STATE_INIT = 0;
    public static final int STATE_UTC = 1;
    public static final int STATE_GMT = 2;
    public static final int STATE_HOUR = 3;
    public static final int STATE_DELIM = 4;
    public static final int STATE_MINUTE = 5;
    public static final int STATE_END = 6;
    public static final int STATE_SIGN = 7;
    private static final long AVG_YEAR_MILLIS = (long) (365.2425 * DAY_MILLIS);
    private static final long YEAR_MILLIS = 365 * DAY_MILLIS;
    private static final long LEAP_YEAR_MILLIS = 366 * DAY_MILLIS;
    private static final long HALF_YEAR_MILLIS = AVG_YEAR_MILLIS / 2;
    private static final long EPOCH_MILLIS = 1970L * AVG_YEAR_MILLIS;
    private static final long HALF_EPOCH_MILLIS = EPOCH_MILLIS / 2;
    private static final int DAY_HOURS = 24;
    private static final int HOUR_MINUTES = 60;
    private static final int MINUTE_SECONDS = 60;
    private static final int DAYS_0000_TO_1970 = 719527;
    private static final int[] DAYS_PER_MONTH = {
            31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31
    };
    private static final long[] MIN_MONTH_OF_YEAR_MILLIS = new long[12];
    private static final long[] MAX_MONTH_OF_YEAR_MILLIS = new long[12];
    private static final char BEFORE_ZERO = '0' - 1;
    private static final char AFTER_NINE = '9' + 1;

    static {
        long minSum = 0;
        long maxSum = 0;
        for (int i = 0; i < 11; i++) {
            minSum += DAYS_PER_MONTH[i] * DAY_MILLIS;
            MIN_MONTH_OF_YEAR_MILLIS[i + 1] = minSum;
            maxSum += getDaysPerMonth(i + 1, true) * DAY_MILLIS;
            MAX_MONTH_OF_YEAR_MILLIS[i + 1] = maxSum;
        }
    }

    private Dates() {
    }

    public static long addDays(long millis, int days) {
        return millis + days * DAY_MILLIS;
    }

    public static long addHours(long millis, int hours) {
        return millis + hours * HOUR_MILLIS;
    }

    public static long addMonths(final long millis, int months) {
        if (months == 0) {
            return millis;
        }
        int y = getYear(millis);
        boolean l = isLeapYear(y);
        int m = getMonthOfYear(millis, y, l);
        int _y;
        int _m = m - 1 + months;
        if (_m > -1) {
            _y = y + _m / 12;
            _m = (_m % 12) + 1;
        } else {
            _y = y + _m / 12 - 1;
            _m = -_m % 12;
            if (_m == 0) {
                _m = 12;
            }
            _m = 12 - _m + 1;
            if (_m == 1) {
                _y += 1;
            }
        }
        int _d = getDayOfMonth(millis, y, m, l);
        int maxDay = getDaysPerMonth(_m, isLeapYear(_y));
        if (_d > maxDay) {
            _d = maxDay;
        }
        return toMillis(_y, _m, _d) + getTime(millis) + (millis < 0 ? 1 : 0);
    }

    public static long addYear(long millis, int years) {
        if (years == 0) {
            return millis;
        }

        int y = getYear(millis);
        int m;
        boolean leap1 = isLeapYear(y);
        boolean leap2 = isLeapYear(y + years);

        return yearMillis(y + years, leap2)
                + monthOfYearMillis(m = getMonthOfYear(millis, y, leap1), leap2)
                + (getDayOfMonth(millis, y, m, leap1) - 1) * DAY_MILLIS
                + getTime(millis)
                + (millis < 0 ? 1 : 0);

    }

    public static long ceilDD(long millis) {
        int y, m;
        boolean l;
        return yearMillis(y = getYear(millis), l = isLeapYear(y))
                + monthOfYearMillis(m = getMonthOfYear(millis, y, l), l)
                + (getDayOfMonth(millis, y, m, l) - 1) * DAY_MILLIS
                + 23 * HOUR_MILLIS
                + 59 * MINUTE_MILLIS
                + 59 * SECOND_MILLIS
                + 999L
                ;
    }

    public static long ceilMM(long millis) {
        int y, m;
        boolean l;
        return yearMillis(y = getYear(millis), l = isLeapYear(y))
                + monthOfYearMillis(m = getMonthOfYear(millis, y, l), l)
                + (getDaysPerMonth(m, l) - 1) * DAY_MILLIS
                + 23 * HOUR_MILLIS
                + 59 * MINUTE_MILLIS
                + 59 * SECOND_MILLIS
                + 999L
                ;
    }

    public static long ceilYYYY(long millis) {
        int y;
        boolean l;
        return yearMillis(y = getYear(millis), l = isLeapYear(y))
                + monthOfYearMillis(12, l)
                + (DAYS_PER_MONTH[11] - 1) * DAY_MILLIS
                + 23 * HOUR_MILLIS
                + 59 * MINUTE_MILLIS
                + 59 * SECOND_MILLIS
                + 999L;
    }

    public static long endOfYear(int year) {
        return toMillis(year, 12, 31, 23, 59) + 59 * 1000L + 999L;
    }

    public static long floorDD(long millis) {
        return millis - getTime(millis);
    }

    public static long floorHH(long millis) {
        return millis - millis % HOUR_MILLIS;
    }

    public static long floorMI(long millis) {
        return millis - millis % MINUTE_MILLIS;
    }

    public static long floorMM(long millis) {
        int y;
        boolean l;
        return yearMillis(y = getYear(millis), l = isLeapYear(y)) + monthOfYearMillis(getMonthOfYear(millis, y, l), l);
    }

    public static long floorYYYY(long millis) {
        int y;
        return yearMillis(y = getYear(millis), isLeapYear(y));
    }

    public static int getDayOfMonth(long millis, int year, int month, boolean leap) {
        long dateMillis = yearMillis(year, leap);
        dateMillis += monthOfYearMillis(month, leap);
        return (int) ((millis - dateMillis) / DAY_MILLIS) + 1;
    }

    public static int getDayOfWeek(long millis) {
        // 1970-01-01 is Thursday.
        long d;
        if (millis > -1) {
            d = millis / DAY_MILLIS;
        } else {
            d = (millis - (DAY_MILLIS - 1)) / DAY_MILLIS;
            if (d < -3) {
                return 7 + (int) ((d + 4) % 7);
            }
        }
        return 1 + (int) ((d + 3) % 7);
    }

    public static int getDayOfWeekSundayFirst(long millis) {
        // 1970-01-01 is Thursday.
        long d;
        if (millis > -1) {
            d = millis / DAY_MILLIS;
        } else {
            d = (millis - (DAY_MILLIS - 1)) / DAY_MILLIS;
            if (d < -4) {
                return 7 + (int) ((d + 5) % 7);
            }
        }
        return 1 + (int) ((d + 4) % 7);
    }

    public static long getDaysBetween(long a, long b) {
        if (b < a) {
            return getDaysBetween(b, a);
        } else {
            return (b - a) / DAY_MILLIS;
        }
    }

    /**
     * Days in a given month. This method expects you to know if month is in leap year.
     *
     * @param m    month from 1 to 12
     * @param leap true if this is for leap year
     * @return number of days in month.
     */
    public static int getDaysPerMonth(int m, boolean leap) {
        return leap & m == 2 ? 29 : DAYS_PER_MONTH[m - 1];
    }

    public static int getHourOfDay(long millis) {
        if (millis > -1) {
            return (int) ((millis / HOUR_MILLIS) % DAY_HOURS);
        } else {
            return DAY_HOURS - 1 + (int) (((millis + 1) / HOUR_MILLIS) % DAY_HOURS);
        }
    }

    public static int getMillisOfSecond(long millis) {
        if (millis > -1) {
            return (int) (millis % 1000);
        } else {
            return 1000 - 1 + (int) ((millis + 1) % 1000);
        }
    }

    public static int getMinuteOfHour(long millis) {
        if (millis > -1) {
            return (int) ((millis / MINUTE_MILLIS) % HOUR_MINUTES);
        } else {
            return HOUR_MINUTES - 1 + (int) (((millis + 1) / MINUTE_MILLIS) % HOUR_MINUTES);
        }
    }

    /**
     * Calculates month of year from absolute millis.
     *
     * @param millis millis since 1970
     * @param year   year of month
     * @param leap   true if year was leap
     * @return month of year
     */
    public static int getMonthOfYear(long millis, int year, boolean leap) {
        int i = (int) ((millis - yearMillis(year, leap)) >> 10);
        return leap
                ? ((i < 182 * 84375)
                ? ((i < 91 * 84375)
                ? ((i < 31 * 84375) ? 1 : (i < 60 * 84375) ? 2 : 3)
                : ((i < 121 * 84375) ? 4 : (i < 152 * 84375) ? 5 : 6))
                : ((i < 274 * 84375)
                ? ((i < 213 * 84375) ? 7 : (i < 244 * 84375) ? 8 : 9)
                : ((i < 305 * 84375) ? 10 : (i < 335 * 84375) ? 11 : 12)))
                : ((i < 181 * 84375)
                ? ((i < 90 * 84375)
                ? ((i < 31 * 84375) ? 1 : (i < 59 * 84375) ? 2 : 3)
                : ((i < 120 * 84375) ? 4 : (i < 151 * 84375) ? 5 : 6))
                : ((i < 273 * 84375)
                ? ((i < 212 * 84375) ? 7 : (i < 243 * 84375) ? 8 : 9)
                : ((i < 304 * 84375) ? 10 : (i < 334 * 84375) ? 11 : 12)));
    }

    public static long getMonthsBetween(long a, long b) {
        if (b < a) {
            return getMonthsBetween(b, a);
        }

        int aYear = getYear(a);
        int bYear = getYear(b);
        boolean aLeap = isLeapYear(aYear);
        boolean bLeap = isLeapYear(bYear);
        int aMonth = getMonthOfYear(a, aYear, aLeap);
        int bMonth = getMonthOfYear(b, bYear, bLeap);

        long aResidual = a - yearMillis(aYear, aLeap) - monthOfYearMillis(aMonth, aLeap);
        long bResidual = b - yearMillis(bYear, bLeap) - monthOfYearMillis(bMonth, bLeap);
        long months = 12L * (bYear - aYear) + (bMonth - aMonth);

        if (aResidual > bResidual) {
            return months - 1;
        } else {
            return months;
        }
    }

    public static int getSecondOfMinute(long millis) {
        if (millis > -1) {
            return (int) ((millis / SECOND_MILLIS) % MINUTE_SECONDS);
        } else {
            return MINUTE_SECONDS - 1 + (int) (((millis + 1) / SECOND_MILLIS) % MINUTE_SECONDS);
        }
    }

    /**
     * Calculates year number from millis.
     *
     * @param millis time millis.
     * @return year
     */
    public static int getYear(long millis) {
        long mid = (millis >> 1) + HALF_EPOCH_MILLIS;
        if (mid < 0) {
            mid = mid - HALF_YEAR_MILLIS + 1;
        }
        int year = (int) (mid / HALF_YEAR_MILLIS);

        boolean leap = isLeapYear(year);
        long yearStart = yearMillis(year, leap);
        long diff = millis - yearStart;

        if (diff < 0) {
            year--;
        } else if (diff >= YEAR_MILLIS) {
            yearStart += leap ? LEAP_YEAR_MILLIS : YEAR_MILLIS;
            if (yearStart <= millis) {
                year++;
            }
        }

        return year;
    }

    public static long getYearsBetween(long a, long b) {
        return getMonthsBetween(a, b) / 12;
    }

    /**
     * Calculates if year is leap year using following algorithm:
     * 

* http://en.wikipedia.org/wiki/Leap_year * * @param year the year * @return true if year is leap */ public static boolean isLeapYear(int year) { return ((year & 3) == 0) && ((year % 100) != 0 || (year % 400) == 0); } public static long monthOfYearMillis(int month, boolean leap) { return leap ? MAX_MONTH_OF_YEAR_MILLIS[month - 1] : MIN_MONTH_OF_YEAR_MILLIS[month - 1]; } public static long nextOrSameDayOfWeek(long millis, int dow) { int thisDow = getDayOfWeek(millis); if (thisDow == dow) { return millis; } if (thisDow < dow) { return millis + (dow - thisDow) * DAY_MILLIS; } else { return millis + (7 - (thisDow - dow)) * DAY_MILLIS; } } public static long parseOffset(CharSequence in, int lo, int hi) { int p = lo; int state = STATE_INIT; boolean negative = false; int hour = 0; int minute = 0; try { OUT: while (p < hi) { char c = in.charAt(p); switch (state) { case STATE_INIT: switch (c) { case 'U': case 'u': state = STATE_UTC; break; case 'G': case 'g': state = STATE_GMT; break; case 'Z': case 'z': state = STATE_END; break; case '+': negative = false; state = STATE_HOUR; break; case '-': negative = true; state = STATE_HOUR; break; default: if (isDigit(c)) { state = STATE_HOUR; p--; } else { return Long.MIN_VALUE; } break; } p++; break; case STATE_UTC: if (p > hi - 2 || Chars.noMatch(in, p, p + 2, "tc", 0, 2)) { return Long.MIN_VALUE; } state = STATE_SIGN; p += 2; break; case STATE_GMT: if (p > hi - 2 || Chars.noMatch(in, p, p + 2, "mt", 0, 2)) { return Long.MIN_VALUE; } state = STATE_SIGN; p += 2; break; case STATE_SIGN: switch (c) { case '+': negative = false; break; case '-': negative = true; break; default: return Long.MIN_VALUE; } p++; state = STATE_HOUR; break; case STATE_HOUR: if (isDigit(c) && p < hi - 1) { hour = Numbers.parseInt(in, p, p + 2); } else { return Long.MIN_VALUE; } state = STATE_DELIM; p += 2; break; case STATE_DELIM: if (c == ':') { state = STATE_MINUTE; p++; } else if (isDigit(c)) { state = STATE_MINUTE; } else { return Long.MIN_VALUE; } break; case STATE_MINUTE: if (isDigit(c) && p < hi - 1) { minute = Numbers.parseInt(in, p, p + 2); } else { return Long.MIN_VALUE; } p += 2; state = STATE_END; break OUT; default: return Long.MIN_VALUE; } } } catch (NumericException e) { return Long.MIN_VALUE; } switch (state) { case STATE_DELIM: case STATE_END: if (hour > 23 || minute > 59) { return Long.MIN_VALUE; } final int min = hour * 60 + minute; return Numbers.encodeLowHighInts(negative ? -min : min, p - lo); default: return Long.MIN_VALUE; } } public static long previousOrSameDayOfWeek(long millis, int dow) { int thisDow = getDayOfWeek(millis); if (thisDow == dow) { return millis; } if (thisDow < dow) { return millis - (7 + (thisDow - dow)) * DAY_MILLIS; } else { return millis - (thisDow - dow) * DAY_MILLIS; } } public static long toMillis(int y, int m, int d, int h, int mi) { return toMillis(y, isLeapYear(y), m, d, h, mi); } public static long toMillis(int y, boolean leap, int m, int d, int h, int mi) { return yearMillis(y, leap) + monthOfYearMillis(m, leap) + (d - 1) * DAY_MILLIS + h * HOUR_MILLIS + mi * MINUTE_MILLIS; } public static String toString(long millis) { StringSink sink = Misc.getThreadLocalBuilder(); DateFormatUtils.appendDateTime(sink, millis); return sink.toString(); } /** * Calculated start of year in millis. For example of year 2008 this is * equivalent to parsing "2008-01-01T00:00:00.000Z", except this method is faster. * * @param year the year * @param leap true if give year is leap year * @return millis for start of year. */ public static long yearMillis(int year, boolean leap) { int leapYears = year / 100; if (year < 0) { leapYears = ((year + 3) >> 2) - leapYears + ((leapYears + 3) >> 2) - 1; } else { leapYears = (year >> 2) - leapYears + (leapYears >> 2); if (leap) { leapYears--; } } return (year * 365L + (leapYears - DAYS_0000_TO_1970)) * DAY_MILLIS; } private static boolean isDigit(char c) { return c > BEFORE_ZERO && c < AFTER_NINE; } private static long getTime(long millis) { return millis < 0 ? DAY_MILLIS - 1 + (millis % DAY_MILLIS) : millis % DAY_MILLIS; } private static long toMillis(int y, int m, int d) { boolean l = isLeapYear(y); return yearMillis(y, l) + monthOfYearMillis(m, l) + (d - 1) * DAY_MILLIS; } }





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