/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You 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 java.sql; import java.text.ParsePosition; import java.text.SimpleDateFormat; import java.util.Date; import java.util.Locale; import java.util.regex.Pattern; /** * A Java representation of the SQL {@code TIMESTAMP} type. It provides the * capability of representing the SQL {@code TIMESTAMP} nanosecond value, in * addition to the regular date/time value which has millisecond resolution. *

* The {@code Timestamp} class consists of a regular date/time value, where only * the integral seconds value is stored, plus a nanoseconds value where the * fractional seconds are stored. *

* The addition of the nanosecond value field to the {@code Timestamp} object * makes it significantly different from the {@code java.util.Date} object which * it extends. Users should be aware that {@code Timestamp} objects are not * interchangable with {@code java.util.Date} objects when used outside the * confines of the {@code java.sql} package. * * @see Date * @see Time * @see java.util.Date */ public class Timestamp extends Date { private static final long serialVersionUID = 2745179027874758501L; // The nanoseconds time value of the Timestamp private int nanos; // The regex pattern of yyyy-MM-dd HH:mm:ss private static final String TIME_FORMAT_REGEX = "[0-9]{4}-[0-9]{2}-[0-9]{2} [0-9]{2}:[0-9]{2}:[0-9]{2}.*"; /** * Returns a {@code Timestamp} corresponding to the time specified by the * supplied values for Year, Month, Date, Hour, * Minutes, Seconds and Nanoseconds. * * @deprecated Use the constructor {@link #Timestamp(long)} instead. * @param theYear * specified as the year minus 1900. * @param theMonth * specified as an integer in the range [0,11]. * @param theDate * specified as an integer in the range [1,31]. * @param theHour * specified as an integer in the range [0,23]. * @param theMinute * specified as an integer in the range [0,59]. * @param theSecond * specified as an integer in the range [0,59]. * @param theNano * which defines the nanosecond value of the timestamp specified * as an integer in the range [0,999'999'999] * @throws IllegalArgumentException * if any of the parameters is out of range. */ @SuppressWarnings("deprecation") @Deprecated public Timestamp(int theYear, int theMonth, int theDate, int theHour, int theMinute, int theSecond, int theNano) throws IllegalArgumentException { super(theYear, theMonth, theDate, theHour, theMinute, theSecond); if (theNano < 0 || theNano > 999999999) { throw new IllegalArgumentException("ns out of range: " + theNano); } nanos = theNano; } /** * Returns a {@code Timestamp} object corresponding to the time represented * by a supplied time value. * * @param theTime * a time value in the format of milliseconds since the Epoch * (January 1 1970 00:00:00.000 GMT). */ public Timestamp(long theTime) { super(theTime); /* * Now set the time for this Timestamp object - which deals with the * nanosecond value as well as the base time */ setTimeImpl(theTime); } /** * Returns {@code true} if this timestamp object is later than the supplied * timestamp, otherwise returns {@code false}. * * @param theTimestamp * the timestamp to compare with this timestamp object. * @return {@code true} if this {@code Timestamp} object is later than the * supplied timestamp, {@code false} otherwise. */ public boolean after(Timestamp theTimestamp) { long thisTime = this.getTime(); long compareTime = theTimestamp.getTime(); // If the time value is later, the timestamp is later if (thisTime > compareTime) { return true; } // If the time value is earlier, the timestamp is not later else if (thisTime < compareTime) { return false; } /* * Otherwise the time values are equal in which case the nanoseconds * value determines whether this timestamp is later... */ else if (this.getNanos() > theTimestamp.getNanos()) { return true; } else { return false; } } /** * Returns {@code true} if this {@code Timestamp} object is earlier than the * supplied timestamp, otherwise returns {@code false}. * * @param theTimestamp * the timestamp to compare with this {@code Timestamp} object. * @return {@code true} if this {@code Timestamp} object is earlier than the * supplied timestamp, {@code false} otherwise. */ public boolean before(Timestamp theTimestamp) { long thisTime = this.getTime(); long compareTime = theTimestamp.getTime(); // If the time value is later, the timestamp is later if (thisTime < compareTime) { return true; } // If the time value is earlier, the timestamp is not later else if (thisTime > compareTime) { return false; } /* * Otherwise the time values are equal in which case the nanoseconds * value determines whether this timestamp is later... */ else if (this.getNanos() < theTimestamp.getNanos()) { return true; } else { return false; } } /** * Compares this {@code Timestamp} object with a supplied {@code Timestamp} * object. * * @param theObject * the timestamp to compare with this {@code Timestamp} object, * passed as an {@code Object}. * @return

*
* {@code 0} if the two {@code Timestamp} objects are equal in time *
*
* a value {@code < 0} if this {@code Timestamp} object is before * the supplied {@code Timestamp} and a value *
*
* {@code > 0} if this {@code Timestamp} object is after the * supplied {@code Timestamp} *
*
* @throws ClassCastException * if the supplied object is not a {@code Timestamp} object. */ @Override public int compareTo(Date theObject) throws ClassCastException { return this.compareTo((Timestamp) theObject); } /** * Compares this {@code Timestamp} object with a supplied {@code Timestamp} * object. * * @param theTimestamp * the timestamp to compare with this {@code Timestamp} object, * passed in as a {@code Timestamp}. * @return one of the following: * */ public int compareTo(Timestamp theTimestamp) { int result = super.compareTo(theTimestamp); if (result == 0) { int thisNano = this.getNanos(); int thatNano = theTimestamp.getNanos(); if (thisNano > thatNano) { return 1; } else if (thisNano == thatNano) { return 0; } else { return -1; } } return result; } /** * Tests to see if this timestamp is equal to a supplied object. * * @param theObject * the object to which this timestamp is compared. * @return {@code true} if this {@code Timestamp} object is equal to the * supplied {@code Timestamp} object
{@code false} if the object * is not a {@code Timestamp} object or if the object is a {@code * Timestamp} but represents a different instant in time. */ @Override public boolean equals(Object theObject) { if (theObject instanceof Timestamp) { return equals((Timestamp) theObject); } return false; } /** * Tests to see if this timestamp is equal to a supplied timestamp. * * @param theTimestamp * the timestamp to compare with this {@code Timestamp} object, * passed as an {@code Object}. * @return {@code true} if this {@code Timestamp} object is equal to the * supplied {@code Timestamp} object, {@code false} otherwise. */ public boolean equals(Timestamp theTimestamp) { if (theTimestamp == null) { return false; } return (this.getTime() == theTimestamp.getTime()) && (this.getNanos() == theTimestamp.getNanos()); } /** * Gets this {@code Timestamp}'s nanosecond value * * @return The timestamp's nanosecond value, an integer between 0 and * 999,999,999. */ public int getNanos() { return nanos; } /** * Returns the time represented by this {@code Timestamp} object, as a long * value containing the number of milliseconds since the Epoch (January 1 * 1970, 00:00:00.000 GMT). * * @return the number of milliseconds that have passed since January 1 1970, * 00:00:00.000 GMT. */ @Override public long getTime() { long theTime = super.getTime(); theTime = theTime + (nanos / 1000000); return theTime; } /** * Sets the nanosecond value for this {@code Timestamp}. * * @param n * number of nanoseconds. * @throws IllegalArgumentException * if number of nanoseconds smaller than 0 or greater than * 999,999,999. */ public void setNanos(int n) throws IllegalArgumentException { if ((n < 0) || (n > 999999999)) { throw new IllegalArgumentException("Value out of range"); } nanos = n; } /** * Sets the time represented by this {@code Timestamp} object to the * supplied time, defined as the number of milliseconds since the Epoch * (January 1 1970, 00:00:00.000 GMT). * * @param theTime * number of milliseconds since the Epoch (January 1 1970, * 00:00:00.000 GMT). */ @Override public void setTime(long theTime) { setTimeImpl(theTime); } private void setTimeImpl(long theTime) { /* * Deal with the nanoseconds value. The supplied time is in milliseconds - * so we must extract the milliseconds value and multiply by 1000000 to * get nanoseconds. Things are more complex if theTime value is * negative, since then the time value is the time before the Epoch but * the nanoseconds value of the Timestamp must be positive - so we must * take the "raw" milliseconds value and subtract it from 1000 to get to * the true nanoseconds value Simultaneously, recalculate the time value * to the exact nearest second and reset the Date time value */ int milliseconds = (int) (theTime % 1000); theTime = theTime - milliseconds; if (milliseconds < 0) { theTime = theTime - 1000; milliseconds = 1000 + milliseconds; } super.setTime(theTime); setNanos(milliseconds * 1000000); } /** * Returns the timestamp formatted as a String in the JDBC Timestamp Escape * format, which is {@code "yyyy-MM-dd HH:mm:ss.nnnnnnnnn"}. * * @return A string representing the instant defined by the {@code * Timestamp}, in JDBC Timestamp escape format. */ @SuppressWarnings("deprecation") @Override public String toString() { StringBuilder sb = new StringBuilder(29); format((getYear() + 1900), 4, sb); sb.append('-'); format((getMonth() + 1), 2, sb); sb.append('-'); format(getDate(), 2, sb); sb.append(' '); format(getHours(), 2, sb); sb.append(':'); format(getMinutes(), 2, sb); sb.append(':'); format(getSeconds(), 2, sb); sb.append('.'); if (nanos == 0) { sb.append('0'); } else { format(nanos, 9, sb); while (sb.charAt(sb.length() - 1) == '0') { sb.setLength(sb.length() - 1); } } return sb.toString(); } private static final String PADDING = "000000000"; /* * Private method to format the time */ private void format(int date, int digits, StringBuilder sb) { String str = String.valueOf(date); if (digits - str.length() > 0) { sb.append(PADDING.substring(0, digits - str.length())); } sb.append(str); } /** * Creates a {@code Timestamp} object with a time value equal to the time * specified by a supplied String holding the time in JDBC timestamp escape * format, which is {@code "yyyy-MM-dd HH:mm:ss.nnnnnnnnn}" * * @param s * the {@code String} containing a time in JDBC timestamp escape * format. * @return A {@code Timestamp} object with time value as defined by the * supplied {@code String}. * @throws IllegalArgumentException * if the provided string is {@code null}. */ public static Timestamp valueOf(String s) throws IllegalArgumentException { if (s == null) { throw new IllegalArgumentException("Argument cannot be null"); } // omit trailing whitespace s = s.trim(); if (!Pattern.matches(TIME_FORMAT_REGEX, s)) { throw badTimestampString(s); } SimpleDateFormat df = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss", Locale.US); ParsePosition pp = new ParsePosition(0); /* * First parse out the yyyy-MM-dd HH:mm:ss component of the String into * a Date object using the SimpleDateFormat. This should stop after the * seconds value, according to the definition of SimpleDateFormat.parse, * with the ParsePosition indicating the index of the "." which should * precede the nanoseconds value */ Date theDate; try { theDate = df.parse(s, pp); } catch (Exception e) { throw badTimestampString(s); } if (theDate == null) { throw badTimestampString(s); } /* * If we get here, the Date part of the string was OK - now for the * nanoseconds value. Strictly, this requires the remaining part of the * String to look like ".nnnnnnnnn". However, we accept anything with a * '.' followed by 1 to 9 digits - we also accept nothing (no fractions * of a second). Anything else is interpreted as incorrect format which * will generate an IllegalArgumentException */ int position = pp.getIndex(); int remaining = s.length() - position; int theNanos; if (remaining == 0) { // First, allow for the case where no fraction of a second is given: theNanos = 0; } else { /* * Case where fraction of a second is specified: Require 1 character * plus the "." in the remaining part of the string... */ if ((s.length() - position) < ".n".length()) { throw badTimestampString(s); } /* * If we're strict, we should not allow any EXTRA characters after * the 9 digits */ if ((s.length() - position) > ".nnnnnnnnn".length()) { throw badTimestampString(s); } // Require the next character to be a "." if (s.charAt(position) != '.') { throw new NumberFormatException("Bad input string format: expected '.' not '" + s.charAt(position) + "' in \"" + s + "\""); } // Get the length of the number string - need to account for the '.' int nanoLength = s.length() - position - 1; // Get the 9 characters following the "." as an integer String theNanoString = s.substring(position + 1, position + 1 + nanoLength); /* * We must adjust for the cases where the nanos String was not 9 * characters long by padding out with zeros */ theNanoString = theNanoString + "000000000"; theNanoString = theNanoString.substring(0, 9); try { theNanos = Integer.parseInt(theNanoString); } catch (Exception e) { // If we get here, the string was not a number throw badTimestampString(s); } } if (theNanos < 0 || theNanos > 999999999) { throw badTimestampString(s); } Timestamp theTimestamp = new Timestamp(theDate.getTime()); theTimestamp.setNanos(theNanos); return theTimestamp; } private static IllegalArgumentException badTimestampString(String s) { throw new IllegalArgumentException("Timestamp format must be " + "yyyy-MM-dd HH:mm:ss.fffffffff; was '" + s + "'"); } }