All Downloads are FREE. Search and download functionalities are using the official Maven repository.

com.datastax.driver.core.Duration Maven / Gradle / Ivy

There is a newer version: 3.10.3-yb-3
Show newest version
/*
 * Copyright DataStax, Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package com.datastax.driver.core;

import static com.google.common.base.Preconditions.checkArgument;

import com.google.common.base.Objects;
import java.util.regex.Matcher;
import java.util.regex.Pattern;

/**
 * Represents a duration. A duration stores separately months, days, and seconds due to the fact
 * that the number of days in a month varies, and a day can have 23 or 25 hours if a daylight saving
 * is involved.
 */
public final class Duration {

  static final long NANOS_PER_MICRO = 1000L;
  static final long NANOS_PER_MILLI = 1000 * NANOS_PER_MICRO;
  static final long NANOS_PER_SECOND = 1000 * NANOS_PER_MILLI;
  static final long NANOS_PER_MINUTE = 60 * NANOS_PER_SECOND;
  static final long NANOS_PER_HOUR = 60 * NANOS_PER_MINUTE;
  static final int DAYS_PER_WEEK = 7;
  static final int MONTHS_PER_YEAR = 12;

  /** The Regexp used to parse the duration provided as String. */
  private static final Pattern STANDARD_PATTERN =
      Pattern.compile(
          "\\G(\\d+)(y|Y|mo|MO|mO|Mo|w|W|d|D|h|H|s|S|ms|MS|mS|Ms|us|US|uS|Us|µs|µS|ns|NS|nS|Ns|m|M)");

  /**
   * The Regexp used to parse the duration when provided in the ISO 8601 format with designators.
   */
  private static final Pattern ISO8601_PATTERN =
      Pattern.compile("P((\\d+)Y)?((\\d+)M)?((\\d+)D)?(T((\\d+)H)?((\\d+)M)?((\\d+)S)?)?");

  /**
   * The Regexp used to parse the duration when provided in the ISO 8601 format with designators.
   */
  private static final Pattern ISO8601_WEEK_PATTERN = Pattern.compile("P(\\d+)W");

  /** The Regexp used to parse the duration when provided in the ISO 8601 alternative format. */
  private static final Pattern ISO8601_ALTERNATIVE_PATTERN =
      Pattern.compile("P(\\d{4})-(\\d{2})-(\\d{2})T(\\d{2}):(\\d{2}):(\\d{2})");

  /** The number of months. */
  private final int months;

  /** The number of days. */
  private final int days;

  /** The number of nanoseconds. */
  private final long nanoseconds;

  private Duration(int months, int days, long nanoseconds) {
    // Makes sure that all the values are negative if one of them is
    if ((months < 0 || days < 0 || nanoseconds < 0)
        && ((months > 0 || days > 0 || nanoseconds > 0))) {
      throw new IllegalArgumentException(
          String.format(
              "All values must be either negative or positive, got %d months, %d days, %d nanoseconds",
              months, days, nanoseconds));
    }
    this.months = months;
    this.days = days;
    this.nanoseconds = nanoseconds;
  }

  /**
   * Creates a duration with the given number of months, days and nanoseconds.
   *
   * 

A duration can be negative. In this case, all the non zero values must be negative. * * @param months the number of months * @param days the number of days * @param nanoseconds the number of nanoseconds * @throws IllegalArgumentException if the values are not all negative or all positive */ public static Duration newInstance(int months, int days, long nanoseconds) { return new Duration(months, days, nanoseconds); } /** * Converts a String into a duration. * *

The accepted formats are: * *

    *
  • multiple digits followed by a time unit like: 12h30m where the time unit can be: *
      *
    • {@code y}: years *
    • {@code m}: months *
    • {@code w}: weeks *
    • {@code d}: days *
    • {@code h}: hours *
    • {@code m}: minutes *
    • {@code s}: seconds *
    • {@code ms}: milliseconds *
    • {@code us} or {@code µs}: microseconds *
    • {@code ns}: nanoseconds *
    *
  • ISO 8601 format: P[n]Y[n]M[n]DT[n]H[n]M[n]S or P[n]W *
  • ISO 8601 alternative format: P[YYYY]-[MM]-[DD]T[hh]:[mm]:[ss] *
* * @param input the String to convert * @return a {@link Duration} */ public static Duration from(String input) { boolean isNegative = input.startsWith("-"); String source = isNegative ? input.substring(1) : input; if (source.startsWith("P")) { if (source.endsWith("W")) return parseIso8601WeekFormat(isNegative, source); if (source.contains("-")) return parseIso8601AlternativeFormat(isNegative, source); return parseIso8601Format(isNegative, source); } return parseStandardFormat(isNegative, source); } private static Duration parseIso8601Format(boolean isNegative, String source) { Matcher matcher = ISO8601_PATTERN.matcher(source); if (!matcher.matches()) throw new IllegalArgumentException( String.format("Unable to convert '%s' to a duration", source)); Builder builder = new Builder(isNegative); if (matcher.group(1) != null) builder.addYears(groupAsLong(matcher, 2)); if (matcher.group(3) != null) builder.addMonths(groupAsLong(matcher, 4)); if (matcher.group(5) != null) builder.addDays(groupAsLong(matcher, 6)); // Checks if the String contains time information if (matcher.group(7) != null) { if (matcher.group(8) != null) builder.addHours(groupAsLong(matcher, 9)); if (matcher.group(10) != null) builder.addMinutes(groupAsLong(matcher, 11)); if (matcher.group(12) != null) builder.addSeconds(groupAsLong(matcher, 13)); } return builder.build(); } private static Duration parseIso8601AlternativeFormat(boolean isNegative, String source) { Matcher matcher = ISO8601_ALTERNATIVE_PATTERN.matcher(source); if (!matcher.matches()) throw new IllegalArgumentException( String.format("Unable to convert '%s' to a duration", source)); return new Builder(isNegative) .addYears(groupAsLong(matcher, 1)) .addMonths(groupAsLong(matcher, 2)) .addDays(groupAsLong(matcher, 3)) .addHours(groupAsLong(matcher, 4)) .addMinutes(groupAsLong(matcher, 5)) .addSeconds(groupAsLong(matcher, 6)) .build(); } private static Duration parseIso8601WeekFormat(boolean isNegative, String source) { Matcher matcher = ISO8601_WEEK_PATTERN.matcher(source); if (!matcher.matches()) throw new IllegalArgumentException( String.format("Unable to convert '%s' to a duration", source)); return new Builder(isNegative).addWeeks(groupAsLong(matcher, 1)).build(); } private static Duration parseStandardFormat(boolean isNegative, String source) { Matcher matcher = STANDARD_PATTERN.matcher(source); if (!matcher.find()) throw new IllegalArgumentException( String.format("Unable to convert '%s' to a duration", source)); Builder builder = new Builder(isNegative); boolean done; do { long number = groupAsLong(matcher, 1); String symbol = matcher.group(2); add(builder, number, symbol); done = matcher.end() == source.length(); } while (matcher.find()); if (!done) throw new IllegalArgumentException( String.format("Unable to convert '%s' to a duration", source)); return builder.build(); } private static long groupAsLong(Matcher matcher, int group) { return Long.parseLong(matcher.group(group)); } private static Builder add(Builder builder, long number, String symbol) { String s = symbol.toLowerCase(); if (s.equals("y")) { return builder.addYears(number); } else if (s.equals("mo")) { return builder.addMonths(number); } else if (s.equals("w")) { return builder.addWeeks(number); } else if (s.equals("d")) { return builder.addDays(number); } else if (s.equals("h")) { return builder.addHours(number); } else if (s.equals("m")) { return builder.addMinutes(number); } else if (s.equals("s")) { return builder.addSeconds(number); } else if (s.equals("ms")) { return builder.addMillis(number); } else if (s.equals("us") || s.equals("µs")) { return builder.addMicros(number); } else if (s.equals("ns")) { return builder.addNanos(number); } throw new IllegalArgumentException(String.format("Unknown duration symbol '%s'", symbol)); } /** * Appends the result of the division to the specified builder if the dividend is not zero. * * @param builder the builder to append to * @param dividend the dividend * @param divisor the divisor * @param unit the time unit to append after the result of the division * @return the remainder of the division */ private static long append(StringBuilder builder, long dividend, long divisor, String unit) { if (dividend == 0 || dividend < divisor) return dividend; builder.append(dividend / divisor).append(unit); return dividend % divisor; } /** * Returns the number of months in this duration. * * @return the number of months in this duration. */ public int getMonths() { return months; } /** * Returns the number of days in this duration. * * @return the number of days in this duration. */ public int getDays() { return days; } /** * Returns the number of nanoseconds in this duration. * * @return the number of months in this duration. */ public long getNanoseconds() { return nanoseconds; } @Override public int hashCode() { return Objects.hashCode(days, months, nanoseconds); } @Override public boolean equals(Object obj) { if (!(obj instanceof Duration)) return false; Duration other = (Duration) obj; return days == other.days && months == other.months && nanoseconds == other.nanoseconds; } @Override public String toString() { StringBuilder builder = new StringBuilder(); if (months < 0 || days < 0 || nanoseconds < 0) builder.append('-'); long remainder = append(builder, Math.abs(months), MONTHS_PER_YEAR, "y"); append(builder, remainder, 1, "mo"); append(builder, Math.abs(days), 1, "d"); if (nanoseconds != 0) { remainder = append(builder, Math.abs(nanoseconds), NANOS_PER_HOUR, "h"); remainder = append(builder, remainder, NANOS_PER_MINUTE, "m"); remainder = append(builder, remainder, NANOS_PER_SECOND, "s"); remainder = append(builder, remainder, NANOS_PER_MILLI, "ms"); remainder = append(builder, remainder, NANOS_PER_MICRO, "us"); append(builder, remainder, 1, "ns"); } return builder.toString(); } private static class Builder { /** {@code true} if the duration is a negative one, {@code false} otherwise. */ private final boolean isNegative; /** The number of months. */ private int months; /** The number of days. */ private int days; /** The number of nanoseconds. */ private long nanoseconds; /** We need to make sure that the values for each units are provided in order. */ private int currentUnitIndex; public Builder(boolean isNegative) { this.isNegative = isNegative; } /** * Adds the specified amount of years. * * @param numberOfYears the number of years to add. * @return this {@code Builder} */ public Builder addYears(long numberOfYears) { validateOrder(1); validateMonths(numberOfYears, MONTHS_PER_YEAR); months += numberOfYears * MONTHS_PER_YEAR; return this; } /** * Adds the specified amount of months. * * @param numberOfMonths the number of months to add. * @return this {@code Builder} */ public Builder addMonths(long numberOfMonths) { validateOrder(2); validateMonths(numberOfMonths, 1); months += numberOfMonths; return this; } /** * Adds the specified amount of weeks. * * @param numberOfWeeks the number of weeks to add. * @return this {@code Builder} */ public Builder addWeeks(long numberOfWeeks) { validateOrder(3); validateDays(numberOfWeeks, DAYS_PER_WEEK); days += numberOfWeeks * DAYS_PER_WEEK; return this; } /** * Adds the specified amount of days. * * @param numberOfDays the number of days to add. * @return this {@code Builder} */ public Builder addDays(long numberOfDays) { validateOrder(4); validateDays(numberOfDays, 1); days += numberOfDays; return this; } /** * Adds the specified amount of hours. * * @param numberOfHours the number of hours to add. * @return this {@code Builder} */ public Builder addHours(long numberOfHours) { validateOrder(5); validateNanos(numberOfHours, NANOS_PER_HOUR); nanoseconds += numberOfHours * NANOS_PER_HOUR; return this; } /** * Adds the specified amount of minutes. * * @param numberOfMinutes the number of minutes to add. * @return this {@code Builder} */ public Builder addMinutes(long numberOfMinutes) { validateOrder(6); validateNanos(numberOfMinutes, NANOS_PER_MINUTE); nanoseconds += numberOfMinutes * NANOS_PER_MINUTE; return this; } /** * Adds the specified amount of seconds. * * @param numberOfSeconds the number of seconds to add. * @return this {@code Builder} */ public Builder addSeconds(long numberOfSeconds) { validateOrder(7); validateNanos(numberOfSeconds, NANOS_PER_SECOND); nanoseconds += numberOfSeconds * NANOS_PER_SECOND; return this; } /** * Adds the specified amount of milliseconds. * * @param numberOfMillis the number of milliseconds to add. * @return this {@code Builder} */ public Builder addMillis(long numberOfMillis) { validateOrder(8); validateNanos(numberOfMillis, NANOS_PER_MILLI); nanoseconds += numberOfMillis * NANOS_PER_MILLI; return this; } /** * Adds the specified amount of microseconds. * * @param numberOfMicros the number of microseconds to add. * @return this {@code Builder} */ public Builder addMicros(long numberOfMicros) { validateOrder(9); validateNanos(numberOfMicros, NANOS_PER_MICRO); nanoseconds += numberOfMicros * NANOS_PER_MICRO; return this; } /** * Adds the specified amount of nanoseconds. * * @param numberOfNanos the number of nanoseconds to add. * @return this {@code Builder} */ public Builder addNanos(long numberOfNanos) { validateOrder(10); validateNanos(numberOfNanos, 1); nanoseconds += numberOfNanos; return this; } /** * Validates that the total number of months can be stored. * * @param units the number of units that need to be added * @param monthsPerUnit the number of days per unit */ private void validateMonths(long units, int monthsPerUnit) { validate(units, (Integer.MAX_VALUE - months) / monthsPerUnit, "months"); } /** * Validates that the total number of days can be stored. * * @param units the number of units that need to be added * @param daysPerUnit the number of days per unit */ private void validateDays(long units, int daysPerUnit) { validate(units, (Integer.MAX_VALUE - days) / daysPerUnit, "days"); } /** * Validates that the total number of nanoseconds can be stored. * * @param units the number of units that need to be added * @param nanosPerUnit the number of nanoseconds per unit */ private void validateNanos(long units, long nanosPerUnit) { validate(units, (Long.MAX_VALUE - nanoseconds) / nanosPerUnit, "nanoseconds"); } /** * Validates that the specified amount is less than the limit. * * @param units the number of units to check * @param limit the limit on the number of units * @param unitName the unit name */ private void validate(long units, long limit, String unitName) { checkArgument( units <= limit, "Invalid duration. The total number of %s must be less or equal to %s", unitName, Integer.MAX_VALUE); } /** * Validates that the duration values are added in the proper order. * * @param unitIndex the unit index (e.g. years=1, months=2, ...) */ private void validateOrder(int unitIndex) { if (unitIndex == currentUnitIndex) throw new IllegalArgumentException( String.format( "Invalid duration. The %s are specified multiple times", getUnitName(unitIndex))); if (unitIndex <= currentUnitIndex) throw new IllegalArgumentException( String.format( "Invalid duration. The %s should be after %s", getUnitName(currentUnitIndex), getUnitName(unitIndex))); currentUnitIndex = unitIndex; } /** * Returns the name of the unit corresponding to the specified index. * * @param unitIndex the unit index * @return the name of the unit corresponding to the specified index. */ private String getUnitName(int unitIndex) { switch (unitIndex) { case 1: return "years"; case 2: return "months"; case 3: return "weeks"; case 4: return "days"; case 5: return "hours"; case 6: return "minutes"; case 7: return "seconds"; case 8: return "milliseconds"; case 9: return "microseconds"; case 10: return "nanoseconds"; default: throw new AssertionError("unknown unit index: " + unitIndex); } } public Duration build() { return isNegative ? new Duration(-months, -days, -nanoseconds) : new Duration(months, days, nanoseconds); } } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy