/libcore/ojluni/src/test/java/time/test/java/time/chrono/ |
TestChronoLocalDate.java | 89 dates.add(date.minus(10, ChronoUnit.YEARS)); 90 dates.add(date.minus(1, ChronoUnit.YEARS)); 98 dates.add(date.plus(1, ChronoUnit.YEARS)); 99 dates.add(date.plus(10, ChronoUnit.YEARS)); 113 dates.add(date.minus(10, ChronoUnit.YEARS)); 114 dates.add(date.minus(1, ChronoUnit.YEARS)); 122 dates.add(date.plus(1, ChronoUnit.YEARS)); 123 dates.add(date.plus(10, ChronoUnit.YEARS));
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TestExampleCode.java | 109 .plus(1, ChronoUnit.YEARS) 162 .plus(1, ChronoUnit.YEARS)
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/external/icu/android_icu4j/src/main/tests/android/icu/dev/test/format/ |
RelativeDateTimeFormatterTest.java | 56 {0.0, Direction.NEXT, RelativeUnit.YEARS, "in 0 years"}, 57 {0.5, Direction.NEXT, RelativeUnit.YEARS, "in 0.5 years"}, 58 {1.0, Direction.NEXT, RelativeUnit.YEARS, "in 1 year"}, 59 {2.0, Direction.NEXT, RelativeUnit.YEARS, "in 2 years"}, 85 {0.0, Direction.LAST, RelativeUnit.YEARS, "0 years ago"}, 86 {0.5, Direction.LAST, RelativeUnit.YEARS, "0.5 years ago"} [all...] |
/external/icu/icu4j/main/tests/core/src/com/ibm/icu/dev/test/format/ |
RelativeDateTimeFormatterTest.java | 55 {0.0, Direction.NEXT, RelativeUnit.YEARS, "in 0 years"}, 56 {0.5, Direction.NEXT, RelativeUnit.YEARS, "in 0.5 years"}, 57 {1.0, Direction.NEXT, RelativeUnit.YEARS, "in 1 year"}, 58 {2.0, Direction.NEXT, RelativeUnit.YEARS, "in 2 years"}, 84 {0.0, Direction.LAST, RelativeUnit.YEARS, "0 years ago"}, 85 {0.5, Direction.LAST, RelativeUnit.YEARS, "0.5 years ago"} [all...] |
/libcore/ojluni/src/test/java/time/tck/java/time/temporal/serial/ |
TCKChronoUnitSerialization.java | 74 import static java.time.temporal.ChronoUnit.YEARS; 101 {YEARS},
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/libcore/ojluni/src/main/java/java/time/temporal/ |
ChronoField.java | 82 import static java.time.temporal.ChronoUnit.YEARS; 400 * years and 1 to 366 in leap years. 412 DAY_OF_YEAR("DayOfYear", DAYS, YEARS, ValueRange.of(1, 365, 366)), 454 ALIGNED_WEEK_OF_YEAR("AlignedWeekOfYear", WEEKS, YEARS, ValueRange.of(1, 53)), 465 MONTH_OF_YEAR("MonthOfYear", MONTHS, YEARS, ValueRange.of(1, 12), "month"), 520 YEAR_OF_ERA("YearOfEra", YEARS, FOREVER, ValueRange.of(1, Year.MAX_VALUE, Year.MAX_VALUE + 1)), 544 YEAR("Year", YEARS, FOREVER, ValueRange.of(Year.MIN_VALUE, Year.MAX_VALUE), "year"), [all...] |
TemporalAdjusters.java | 69 import static java.time.temporal.ChronoUnit.YEARS; 264 * temporal.with(DAY_OF_YEAR, 1).plus(1, YEARS); 270 return (temporal) -> temporal.with(DAY_OF_YEAR, 1).plus(1, YEARS);
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ChronoUnit.java | 68 * For example, most non-ISO calendar systems define units of years, months and days, 149 YEARS("Years", Duration.ofSeconds(31556952L)), 152 * For the ISO calendar system, it is equal to 10 years. 155 * and is normally an integral number of years. 160 * For the ISO calendar system, it is equal to 100 years. 163 * and is normally an integral number of years. 168 * For the ISO calendar system, it is equal to 1000 years. 171 * and is normally an integral number of years. 178 * The estimated duration of the era is artificially defined as {@code 1,000,000,000 Years} [all...] |
WeekFields.java | 77 import static java.time.temporal.ChronoUnit.YEARS; 217 * The unit that represents week-based-years for the purpose of addition and subtraction. 219 * This allows a number of week-based-years to be added to, or subtracted from, a date. 224 * The rules for addition add the number of week-based-years to the existing value 694 return new ComputedDayOfField("WeekOfYear", weekDef, WEEKS, YEARS, WEEK_OF_YEAR_RANGE); [all...] |
/libcore/ojluni/src/main/java/java/time/chrono/ |
ChronoPeriodImpl.java | 62 import static java.time.temporal.ChronoUnit.YEARS; 109 Collections.unmodifiableList(Arrays.<TemporalUnit>asList(YEARS, MONTHS, DAYS)); 116 * The number of years. 118 final int years; field in class:ChronoPeriodImpl 131 ChronoPeriodImpl(Chronology chrono, int years, int months, int days) { 134 this.years = years; 142 if (unit == ChronoUnit.YEARS) { 143 return years; 166 return years == 0 && months == 0 && days == 0 395 int years = in.readInt(); local [all...] |
ChronoLocalDateImpl.java | 88 * For example, the Mayan calendar uses a system that bears no relation to years, months and days. 118 * ChronoLocalDate last = first.plus(1, ChronoUnit.YEARS) 205 case YEARS: return plusYears(amountToAdd); 230 * Returns a copy of this date with the specified number of years added. 232 * This adds the specified period in years to the date. 233 * In some cases, adding years can cause the resulting date to become invalid. 239 * @param yearsToAdd the years to add, may be negative 240 * @return a date based on this one with the years added, not null 295 * Returns a copy of this date with the specified number of years subtracted. 297 * This subtracts the specified period in years to the date [all...] |
/libcore/ojluni/src/test/java/time/test/java/time/temporal/ |
TestChronoUnit.java | 69 import static java.time.temporal.ChronoUnit.YEARS; 109 assertEquals(YEARS.between(start, end), expected); 114 assertEquals(YEARS.between(end, start), -expected); 119 assertEquals(YEARS.between(start.atTime(12, 30), end.atTime(12, 30)), expected); 125 assertEquals(YEARS.between(start.atTime(12, 30), end.atTime(12, 31)), expected); 127 assertEquals(YEARS.between(start.atTime(12, 30), end.atTime(12, 29)), expected); 133 assertEquals(YEARS.between(start.atStartOfDay(ZoneOffset.ofHours(2)), end.atStartOfDay(ZoneOffset.ofHours(2))), expected); 140 assertEquals(YEARS.between(start.atStartOfDay(ZoneOffset.ofHours(2)), end.atStartOfDay(ZoneOffset.ofHours(1))), expected); 142 assertEquals(YEARS.between(start.atStartOfDay(ZoneOffset.ofHours(1)), end.atStartOfDay(ZoneOffset.ofHours(2))), expected);
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/libcore/ojluni/src/test/java/time/tck/java/time/ |
TCKYear.java | 70 import static java.time.temporal.ChronoUnit.YEARS; 384 assertEquals(TEST_2008.isSupported(ChronoUnit.YEARS), true); 417 {TEST_2008, TemporalQueries.precision(), ChronoUnit.YEARS}, 548 long years = 20L + Year.MAX_VALUE; local 549 assertEquals(Year.of(-40).plusYears(years), Year.of((int) (-40L + years))); 578 {Year.of(1), 1, ChronoUnit.YEARS, Year.of(2), null}, 579 {Year.of(1), -12, ChronoUnit.YEARS, Year.of(-11), null}, 580 {Year.of(1), 0, ChronoUnit.YEARS, Year.of(1), null}, 581 {Year.of(999999999), 0, ChronoUnit.YEARS, Year.of(999999999), null} 680 long years = 20L + Year.MAX_VALUE; local [all...] |
TCKYearMonth.java | 73 import static java.time.temporal.ChronoUnit.YEARS; 449 assertEquals(TEST_2008_06.isSupported(ChronoUnit.YEARS), true); 746 {YearMonth.of(1, 10), 1, ChronoUnit.YEARS, YearMonth.of(2, 10), null}, 747 {YearMonth.of(1, 10), -12, ChronoUnit.YEARS, YearMonth.of(-11, 10), null}, 748 {YearMonth.of(1, 10), 0, ChronoUnit.YEARS, YearMonth.of(1, 10), null}, 749 {YearMonth.of(999999999, 12), 0, ChronoUnit.YEARS, YearMonth.of(999999999, 12), null}, 750 {YearMonth.of(-999999999, 1), 0, ChronoUnit.YEARS, YearMonth.of(-999999999, 1), null}, 751 {YearMonth.of(0, 1), -999999999, ChronoUnit.YEARS, YearMonth.of(-999999999, 1), null}, 752 {YearMonth.of(0, 12), 999999999, ChronoUnit.YEARS, YearMonth.of(999999999, 12), null}, [all...] |
TCKLocalDate.java | 82 import static java.time.temporal.ChronoUnit.YEARS; 658 assertEquals(TEST_2007_07_15.isSupported(ChronoUnit.YEARS), true); [all...] |
/libcore/ojluni/src/test/java/time/test/java/time/format/ |
TestReducedParser.java | 67 import static java.time.temporal.ChronoUnit.YEARS; 394 {IsoChronology.INSTANCE.date(baseYear).plus(1, YEARS)}, 395 {IsoChronology.INSTANCE.date(baseYear).plus(99, YEARS)}, 397 {HijrahChronology.INSTANCE.date(baseYear).plus(1, YEARS)}, 398 {HijrahChronology.INSTANCE.date(baseYear).plus(99, YEARS)}, 400 {JapaneseChronology.INSTANCE.date(baseYear).plus(1, YEARS)}, 401 {JapaneseChronology.INSTANCE.date(baseYear).plus(99, YEARS)}, 403 {MinguoChronology.INSTANCE.date(baseYear).plus(1, YEARS)}, 404 {MinguoChronology.INSTANCE.date(baseYear).plus(99, YEARS)}, 406 {ThaiBuddhistChronology.INSTANCE.date(baseYear).plus(1, YEARS)}, [all...] |
/libcore/luni/src/main/java/javax/xml/datatype/ |
DatatypeConstants.java | 127 * <p>A constant that represents the years field.</p> 129 public static final Field YEARS = new Field("YEARS", 0);
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Duration.java | 34 * which consists of six fields (years, months, days, hours, 158 boolean yearSet = isSet(DatatypeConstants.YEARS); 218 * <p>Get the years value of this <code>Duration</code> as an <code>int</code> or <code>0</code> if not present.</p> 221 * {@link #getField(DatatypeConstants.Field field) getField(DatatypeConstants.YEARS)}.</p> 224 * with years that go beyond the range of an <code>int</code>. 225 * Use {@link #getField(DatatypeConstants.Field field) getField(DatatypeConstants.YEARS)} to avoid possible loss of precision.</p> 227 * @return If the years field is present, return its value as an <code>int</code>, else return <code>0</code>. 230 return getFieldValueAsInt(DatatypeConstants.YEARS); 383 * In case of YEARS, MONTHS, DAYS, HOURS, and MINUTES, the returned 388 * one of the six Field constants (YEARS,MONTHS,DAYS,HOURS 892 BigInteger years = (BigInteger) getField(DatatypeConstants.YEARS); local [all...] |
/libcore/luni/src/test/java/libcore/java/time/ |
InstantTest.java | 46 assertEquals(false, Instant.EPOCH.isSupported(ChronoUnit.YEARS));
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/libcore/ojluni/src/test/java/time/tck/java/time/temporal/ |
TCKChronoUnit.java | 74 import static java.time.temporal.ChronoUnit.YEARS; 106 {YEARS, true, false, true}, 137 {YEARS, LocalDate.of(2000, 1, 10), true, 1, LocalDate.of(2001, 1, 10)}, 152 {YEARS, LocalTime.of(1, 2, 3, 400), false, 1, null},
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TCKChronoField.java | 97 import static java.time.temporal.ChronoUnit.YEARS; 125 {YEAR, YEARS, FOREVER}, 126 {MONTH_OF_YEAR, MONTHS, YEARS}, 129 {DAY_OF_YEAR, DAYS, YEARS},
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/libcore/ojluni/src/main/java/java/time/ |
Period.java | 66 import static java.time.temporal.ChronoUnit.YEARS; 96 * such as '2 years, 3 months and 4 days'. 98 * This class models a quantity or amount of time in terms of years, months and days. 113 * The supported units of a period are {@link ChronoUnit#YEARS YEARS}, 119 * system, in which today's rules for leap years are applied for all time. 150 Collections.unmodifiableList(Arrays.<TemporalUnit>asList(YEARS, MONTHS, DAYS)); 153 * The number of years. 155 private final int years; field in class:Period 167 * Obtains a {@code Period} representing a number of years 264 int years = 0; local 333 int years = parseNumber(text, yearMatch, negate); local 1069 int years = in.readInt(); local [all...] |
Year.java | 71 import static java.time.temporal.ChronoUnit.YEARS; 106 * <b>Note that years in the ISO chronology only align with years in the 107 * Gregorian-Julian system for modern years. Parts of Russia did not switch to the 109 * As such, historical years must be treated with caution.</b> 114 * Years represented by this class follow the ISO-8601 standard and use 119 * system, in which today's rules for leap years are applied for all time. 264 * Years outside the range 0000 to 9999 must be prefixed by the plus or minus symbol. 294 * This method applies the current rules for leap years across the whole time-line. 296 * remainder. However, years divisible by 100, are not leap years, wit [all...] |
YearMonth.java | 74 import static java.time.temporal.ChronoUnit.YEARS; 115 * system, in which today's rules for leap years are applied for all time. 267 * Years outside the range 0000 to 9999 must be prefixed by the plus or minus symbol. 367 * <li>{@code YEARS} 386 return unit == MONTHS || unit == YEARS || unit == DECADES || unit == CENTURIES || unit == MILLENNIA || unit == ERAS; 545 * This method applies the current rules for leap years across the whole time-line. 547 * remainder. However, years divisible by 100, are not leap years, with 548 * the exception of years divisible by 400 which are. [all...] |
/libcore/ojluni/src/test/java/time/tck/java/time/chrono/ |
TCKChronoPeriod.java | 62 import static java.time.temporal.ChronoUnit.YEARS; 121 assertEquals(period.get(YEARS), 1); 136 assertEquals(period.getUnits().get(0), YEARS);
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