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Builds the hapi fhir base. Requires Common lang, commons-text, and guava be built first.

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/*
 * #%L
 * HAPI FHIR - Core Library
 * %%
 * Copyright (C) 2014 - 2024 Smile CDR, 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.
 * #L%
 */
package ca.uhn.fhir.model.primitive;

import ca.uhn.fhir.i18n.Msg;
import ca.uhn.fhir.model.api.BasePrimitive;
import ca.uhn.fhir.model.api.TemporalPrecisionEnum;
import ca.uhn.fhir.parser.DataFormatException;
import org.apache.commons.lang3.StringUtils;
import org.apache.commons.lang3.Validate;
import org.apache.commons.lang3.time.DateUtils;
import org.apache.commons.lang3.time.FastDateFormat;

import java.util.Calendar;
import java.util.Date;
import java.util.GregorianCalendar;
import java.util.Map;
import java.util.TimeZone;
import java.util.concurrent.ConcurrentHashMap;

import static org.apache.commons.lang3.StringUtils.isBlank;

public abstract class BaseDateTimeDt extends BasePrimitive {
	static final long NANOS_PER_MILLIS = 1000000L;
	static final long NANOS_PER_SECOND = 1000000000L;

	private static final Map timezoneCache = new ConcurrentHashMap<>();

	private static final FastDateFormat ourHumanDateFormat = FastDateFormat.getDateInstance(FastDateFormat.MEDIUM);
	private static final FastDateFormat ourHumanDateTimeFormat =
			FastDateFormat.getDateTimeInstance(FastDateFormat.MEDIUM, FastDateFormat.MEDIUM);
	public static final String NOW_DATE_CONSTANT = "%now";
	public static final String TODAY_DATE_CONSTANT = "%today";
	private String myFractionalSeconds;
	private TemporalPrecisionEnum myPrecision = null;
	private TimeZone myTimeZone;
	private boolean myTimeZoneZulu = false;

	/**
	 * Constructor
	 */
	public BaseDateTimeDt() {
		// nothing
	}

	/**
	 * Constructor
	 *
	 * @throws DataFormatException
	 *            If the specified precision is not allowed for this type
	 */
	public BaseDateTimeDt(Date theDate, TemporalPrecisionEnum thePrecision) {
		setValue(theDate, thePrecision);
		if (isPrecisionAllowed(thePrecision) == false) {
			throw new DataFormatException(Msg.code(1880) + "Invalid date/time string (datatype "
					+ getClass().getSimpleName() + " does not support " + thePrecision + " precision): " + theDate);
		}
	}

	/**
	 * Constructor
	 */
	public BaseDateTimeDt(Date theDate, TemporalPrecisionEnum thePrecision, TimeZone theTimeZone) {
		this(theDate, thePrecision);
		setTimeZone(theTimeZone);
	}

	/**
	 * Constructor
	 *
	 * @throws DataFormatException
	 *            If the specified precision is not allowed for this type
	 */
	public BaseDateTimeDt(String theString) {
		setValueAsString(theString);
		validatePrecisionAndThrowDataFormatException(theString, getPrecision());
	}

	private void clearTimeZone() {
		myTimeZone = null;
		myTimeZoneZulu = false;
	}

	@Override
	protected String encode(Date theValue) {
		if (theValue == null) {
			return null;
		}
		GregorianCalendar cal;
		if (myTimeZoneZulu) {
			cal = new GregorianCalendar(getTimeZone("GMT"));
		} else if (myTimeZone != null) {
			cal = new GregorianCalendar(myTimeZone);
		} else {
			cal = new GregorianCalendar();
		}
		cal.setTime(theValue);

		StringBuilder b = new StringBuilder();
		leftPadWithZeros(cal.get(Calendar.YEAR), 4, b);
		if (myPrecision.ordinal() > TemporalPrecisionEnum.YEAR.ordinal()) {
			b.append('-');
			leftPadWithZeros(cal.get(Calendar.MONTH) + 1, 2, b);
			if (myPrecision.ordinal() > TemporalPrecisionEnum.MONTH.ordinal()) {
				b.append('-');
				leftPadWithZeros(cal.get(Calendar.DATE), 2, b);
				if (myPrecision.ordinal() > TemporalPrecisionEnum.DAY.ordinal()) {
					b.append('T');
					leftPadWithZeros(cal.get(Calendar.HOUR_OF_DAY), 2, b);
					b.append(':');
					leftPadWithZeros(cal.get(Calendar.MINUTE), 2, b);
					if (myPrecision.ordinal() > TemporalPrecisionEnum.MINUTE.ordinal()) {
						b.append(':');
						leftPadWithZeros(cal.get(Calendar.SECOND), 2, b);
						if (myPrecision.ordinal() > TemporalPrecisionEnum.SECOND.ordinal()) {
							b.append('.');
							b.append(myFractionalSeconds);
							for (int i = myFractionalSeconds.length(); i < 3; i++) {
								b.append('0');
							}
						}
					}

					if (myTimeZoneZulu) {
						b.append('Z');
					} else if (myTimeZone != null) {
						int offset = myTimeZone.getOffset(theValue.getTime());
						if (offset >= 0) {
							b.append('+');
						} else {
							b.append('-');
							offset = Math.abs(offset);
						}

						int hoursOffset = (int) (offset / DateUtils.MILLIS_PER_HOUR);
						leftPadWithZeros(hoursOffset, 2, b);
						b.append(':');
						int minutesOffset = (int) (offset % DateUtils.MILLIS_PER_HOUR);
						minutesOffset = (int) (minutesOffset / DateUtils.MILLIS_PER_MINUTE);
						leftPadWithZeros(minutesOffset, 2, b);
					}
				}
			}
		}
		return b.toString();
	}

	/**
	 * Returns the month with 1-index, e.g. 1=the first day of the month
	 */
	public Integer getDay() {
		return getFieldValue(Calendar.DAY_OF_MONTH);
	}

	/**
	 * Returns the default precision for the given datatype
	 */
	protected abstract TemporalPrecisionEnum getDefaultPrecisionForDatatype();

	private Integer getFieldValue(int theField) {
		if (getValue() == null) {
			return null;
		}
		Calendar cal = getValueAsCalendar();
		return cal.get(theField);
	}

	/**
	 * Returns the hour of the day in a 24h clock, e.g. 13=1pm
	 */
	public Integer getHour() {
		return getFieldValue(Calendar.HOUR_OF_DAY);
	}

	/**
	 * Returns the milliseconds within the current second.
	 * 

* Note that this method returns the * same value as {@link #getNanos()} but with less precision. *

*/ public Integer getMillis() { return getFieldValue(Calendar.MILLISECOND); } /** * Returns the minute of the hour in the range 0-59 */ public Integer getMinute() { return getFieldValue(Calendar.MINUTE); } /** * Returns the month with 0-index, e.g. 0=January */ public Integer getMonth() { return getFieldValue(Calendar.MONTH); } /** * Returns the nanoseconds within the current second *

* Note that this method returns the * same value as {@link #getMillis()} but with more precision. *

*/ public Long getNanos() { if (isBlank(myFractionalSeconds)) { return null; } String retVal = StringUtils.rightPad(myFractionalSeconds, 9, '0'); retVal = retVal.substring(0, 9); return Long.parseLong(retVal); } private int getOffsetIndex(String theValueString) { int plusIndex = theValueString.indexOf('+', 16); int minusIndex = theValueString.indexOf('-', 16); int zIndex = theValueString.indexOf('Z', 16); int retVal = Math.max(Math.max(plusIndex, minusIndex), zIndex); if (retVal == -1) { return -1; } if ((retVal - 2) != (plusIndex + minusIndex + zIndex)) { throwBadDateFormat(theValueString); } return retVal; } /** * Gets the precision for this datatype (using the default for the given type if not set) * * @see #setPrecision(TemporalPrecisionEnum) */ public TemporalPrecisionEnum getPrecision() { if (myPrecision == null) { return getDefaultPrecisionForDatatype(); } return myPrecision; } /** * Returns the second of the minute in the range 0-59 */ public Integer getSecond() { return getFieldValue(Calendar.SECOND); } /** * Returns the TimeZone associated with this dateTime's value. May return null if no timezone was * supplied. */ public TimeZone getTimeZone() { if (myTimeZoneZulu) { return getTimeZone("GMT"); } return myTimeZone; } /** * Returns the value of this object as a {@link GregorianCalendar} */ public GregorianCalendar getValueAsCalendar() { if (getValue() == null) { return null; } GregorianCalendar cal; if (getTimeZone() != null) { cal = new GregorianCalendar(getTimeZone()); } else { cal = new GregorianCalendar(); } cal.setTime(getValue()); return cal; } /** * Returns the year, e.g. 2015 */ public Integer getYear() { return getFieldValue(Calendar.YEAR); } /** * To be implemented by subclasses to indicate whether the given precision is allowed by this type */ protected abstract boolean isPrecisionAllowed(TemporalPrecisionEnum thePrecision); /** * Returns true if the timezone is set to GMT-0:00 (Z) */ public boolean isTimeZoneZulu() { return myTimeZoneZulu; } /** * Returns true if this object represents a date that is today's date * * @throws NullPointerException * if {@link #getValue()} returns null */ public boolean isToday() { Validate.notNull(getValue(), getClass().getSimpleName() + " contains null value"); return DateUtils.isSameDay(new Date(), getValue()); } private void leftPadWithZeros(int theInteger, int theLength, StringBuilder theTarget) { String string = Integer.toString(theInteger); for (int i = string.length(); i < theLength; i++) { theTarget.append('0'); } theTarget.append(string); } @Override protected Date parse(String theValue) throws DataFormatException { Calendar cal = new GregorianCalendar(0, 0, 0); cal.setTimeZone(TimeZone.getDefault()); String value = theValue; boolean fractionalSecondsSet = false; if (value.length() > 0 && (value.charAt(0) == ' ' || value.charAt(value.length() - 1) == ' ')) { value = value.trim(); } int length = value.length(); if (length == 0) { return null; } if (length < 4) { throwBadDateFormat(value); } TemporalPrecisionEnum precision = null; cal.set(Calendar.YEAR, parseInt(value, value.substring(0, 4), 0, 9999)); precision = TemporalPrecisionEnum.YEAR; if (length > 4) { validateCharAtIndexIs(value, 4, '-'); validateLengthIsAtLeast(value, 7); int monthVal = parseInt(value, value.substring(5, 7), 1, 12) - 1; cal.set(Calendar.MONTH, monthVal); precision = TemporalPrecisionEnum.MONTH; if (length > 7) { validateCharAtIndexIs(value, 7, '-'); validateLengthIsAtLeast(value, 10); cal.set(Calendar.DATE, 1); // for some reason getActualMaximum works incorrectly if date isn't set int actualMaximum = cal.getActualMaximum(Calendar.DAY_OF_MONTH); cal.set(Calendar.DAY_OF_MONTH, parseInt(value, value.substring(8, 10), 1, actualMaximum)); precision = TemporalPrecisionEnum.DAY; if (length > 10) { validateLengthIsAtLeast(value, 16); validateCharAtIndexIs(value, 10, 'T'); // yyyy-mm-ddThh:mm:ss int offsetIdx = getOffsetIndex(value); String time; if (offsetIdx == -1) { // throwBadDateFormat(theValue); // No offset - should this be an error? time = value.substring(11); } else { time = value.substring(11, offsetIdx); String offsetString = value.substring(offsetIdx); setTimeZone(value, offsetString); cal.setTimeZone(getTimeZone()); } int timeLength = time.length(); validateCharAtIndexIs(value, 13, ':'); cal.set(Calendar.HOUR_OF_DAY, parseInt(value, value.substring(11, 13), 0, 23)); cal.set(Calendar.MINUTE, parseInt(value, value.substring(14, 16), 0, 59)); precision = TemporalPrecisionEnum.MINUTE; if (timeLength > 5) { validateLengthIsAtLeast(value, 19); validateCharAtIndexIs(value, 16, ':'); // yyyy-mm-ddThh:mm:ss cal.set(Calendar.SECOND, parseInt(value, value.substring(17, 19), 0, 59)); precision = TemporalPrecisionEnum.SECOND; if (timeLength > 8) { validateCharAtIndexIs(value, 19, '.'); // yyyy-mm-ddThh:mm:ss.SSSS validateLengthIsAtLeast(value, 20); int endIndex = getOffsetIndex(value); if (endIndex == -1) { endIndex = value.length(); } int millis; String millisString; if (endIndex > 23) { myFractionalSeconds = value.substring(20, endIndex); fractionalSecondsSet = true; endIndex = 23; millisString = value.substring(20, endIndex); millis = parseInt(value, millisString, 0, 999); } else { millisString = value.substring(20, endIndex); millis = parseInt(value, millisString, 0, 999); myFractionalSeconds = millisString; fractionalSecondsSet = true; } if (millisString.length() == 1) { millis = millis * 100; } else if (millisString.length() == 2) { millis = millis * 10; } cal.set(Calendar.MILLISECOND, millis); precision = TemporalPrecisionEnum.MILLI; } } } } else { cal.set(Calendar.DATE, 1); } } else { cal.set(Calendar.DATE, 1); } if (fractionalSecondsSet == false) { myFractionalSeconds = ""; } if (precision == TemporalPrecisionEnum.MINUTE) { validatePrecisionAndThrowDataFormatException(value, precision); } setPrecision(precision); return cal.getTime(); } private int parseInt(String theValue, String theSubstring, int theLowerBound, int theUpperBound) { int retVal = 0; try { retVal = Integer.parseInt(theSubstring); } catch (NumberFormatException e) { throwBadDateFormat(theValue); } if (retVal < theLowerBound || retVal > theUpperBound) { throwBadDateFormat(theValue); } return retVal; } /** * Sets the month with 1-index, e.g. 1=the first day of the month */ public BaseDateTimeDt setDay(int theDay) { setFieldValue(Calendar.DAY_OF_MONTH, theDay, null, 0, 31); return this; } private void setFieldValue( int theField, int theValue, String theFractionalSeconds, int theMinimum, int theMaximum) { validateValueInRange(theValue, theMinimum, theMaximum); Calendar cal; if (getValue() == null) { cal = new GregorianCalendar(0, 0, 0); } else { cal = getValueAsCalendar(); } if (theField != -1) { cal.set(theField, theValue); } if (theFractionalSeconds != null) { myFractionalSeconds = theFractionalSeconds; } else if (theField == Calendar.MILLISECOND) { myFractionalSeconds = StringUtils.leftPad(Integer.toString(theValue), 3, '0'); } super.setValue(cal.getTime()); } /** * Sets the hour of the day in a 24h clock, e.g. 13=1pm */ public BaseDateTimeDt setHour(int theHour) { setFieldValue(Calendar.HOUR_OF_DAY, theHour, null, 0, 23); return this; } /** * Sets the milliseconds within the current second. *

* Note that this method sets the * same value as {@link #setNanos(long)} but with less precision. *

*/ public BaseDateTimeDt setMillis(int theMillis) { setFieldValue(Calendar.MILLISECOND, theMillis, null, 0, 999); return this; } /** * Sets the minute of the hour in the range 0-59 */ public BaseDateTimeDt setMinute(int theMinute) { setFieldValue(Calendar.MINUTE, theMinute, null, 0, 59); return this; } /** * Sets the month with 0-index, e.g. 0=January */ public BaseDateTimeDt setMonth(int theMonth) { setFieldValue(Calendar.MONTH, theMonth, null, 0, 11); return this; } /** * Sets the nanoseconds within the current second *

* Note that this method sets the * same value as {@link #setMillis(int)} but with more precision. *

*/ public BaseDateTimeDt setNanos(long theNanos) { validateValueInRange(theNanos, 0, NANOS_PER_SECOND - 1); String fractionalSeconds = StringUtils.leftPad(Long.toString(theNanos), 9, '0'); // Strip trailing 0s for (int i = fractionalSeconds.length(); i > 0; i--) { if (fractionalSeconds.charAt(i - 1) != '0') { fractionalSeconds = fractionalSeconds.substring(0, i); break; } } int millis = (int) (theNanos / NANOS_PER_MILLIS); setFieldValue(Calendar.MILLISECOND, millis, fractionalSeconds, 0, 999); return this; } /** * Sets the precision for this datatype * * @throws DataFormatException */ public BaseDateTimeDt setPrecision(TemporalPrecisionEnum thePrecision) throws DataFormatException { if (thePrecision == null) { throw new NullPointerException(Msg.code(1881) + "Precision may not be null"); } myPrecision = thePrecision; updateStringValue(); return this; } /** * Sets the second of the minute in the range 0-59 */ public BaseDateTimeDt setSecond(int theSecond) { setFieldValue(Calendar.SECOND, theSecond, null, 0, 59); return this; } private BaseDateTimeDt setTimeZone(String theWholeValue, String theValue) { if (isBlank(theValue)) { throwBadDateFormat(theWholeValue); } else if (theValue.charAt(0) == 'Z') { clearTimeZone(); setTimeZoneZulu(true); } else if (theValue.length() != 6) { throwBadDateFormat(theWholeValue, "Timezone offset must be in the form \"Z\", \"-HH:mm\", or \"+HH:mm\""); } else if (theValue.charAt(3) != ':' || !(theValue.charAt(0) == '+' || theValue.charAt(0) == '-')) { throwBadDateFormat(theWholeValue, "Timezone offset must be in the form \"Z\", \"-HH:mm\", or \"+HH:mm\""); } else { parseInt(theWholeValue, theValue.substring(1, 3), 0, 23); parseInt(theWholeValue, theValue.substring(4, 6), 0, 59); clearTimeZone(); setTimeZone(getTimeZone("GMT" + theValue)); } return this; } private TimeZone getTimeZone(String offset) { return timezoneCache.computeIfAbsent(offset, TimeZone::getTimeZone); } public BaseDateTimeDt setTimeZone(TimeZone theTimeZone) { myTimeZone = theTimeZone; updateStringValue(); return this; } public BaseDateTimeDt setTimeZoneZulu(boolean theTimeZoneZulu) { myTimeZoneZulu = theTimeZoneZulu; updateStringValue(); return this; } /** * Sets the value for this type using the given Java Date object as the time, and using the default precision for * this datatype (unless the precision is already set), as well as the local timezone as determined by the local operating * system. Both of these properties may be modified in subsequent calls if neccesary. */ @Override public BaseDateTimeDt setValue(Date theValue) { setValue(theValue, getPrecision()); return this; } /** * Sets the value for this type using the given Java Date object as the time, and using the specified precision, as * well as the local timezone as determined by the local operating system. Both of * these properties may be modified in subsequent calls if neccesary. * * @param theValue * The date value * @param thePrecision * The precision * @throws DataFormatException */ public void setValue(Date theValue, TemporalPrecisionEnum thePrecision) throws DataFormatException { if (getTimeZone() == null) { setTimeZone(TimeZone.getDefault()); } myPrecision = thePrecision; myFractionalSeconds = ""; if (theValue != null) { long millis = theValue.getTime() % 1000; if (millis < 0) { // This is for times before 1970 (see bug #444) millis = 1000 + millis; } String fractionalSeconds = Integer.toString((int) millis); myFractionalSeconds = StringUtils.leftPad(fractionalSeconds, 3, '0'); } super.setValue(theValue); } @Override public void setValueAsString(String theValue) throws DataFormatException { clearTimeZone(); if (NOW_DATE_CONSTANT.equalsIgnoreCase(theValue)) { setValue(new Date()); } else if (TODAY_DATE_CONSTANT.equalsIgnoreCase(theValue)) { setValue(new Date(), TemporalPrecisionEnum.DAY); } else { super.setValueAsString(theValue); } } /** * Sets the year, e.g. 2015 */ public BaseDateTimeDt setYear(int theYear) { setFieldValue(Calendar.YEAR, theYear, null, 0, 9999); return this; } private void throwBadDateFormat(String theValue) { throw new DataFormatException(Msg.code(1882) + "Invalid date/time format: \"" + theValue + "\""); } private void throwBadDateFormat(String theValue, String theMesssage) { throw new DataFormatException( Msg.code(1883) + "Invalid date/time format: \"" + theValue + "\": " + theMesssage); } /** * Returns a human readable version of this date/time using the system local format. *

* Note on time zones: This method renders the value using the time zone that is contained within the value. * For example, if this date object contains the value "2012-01-05T12:00:00-08:00", * the human display will be rendered as "12:00:00" even if the application is being executed on a system in a * different time zone. If this behaviour is not what you want, use * {@link #toHumanDisplayLocalTimezone()} instead. *

*/ public String toHumanDisplay() { TimeZone tz = getTimeZone(); Calendar value = tz != null ? Calendar.getInstance(tz) : Calendar.getInstance(); value.setTime(getValue()); switch (getPrecision()) { case YEAR: case MONTH: case DAY: return ourHumanDateFormat.format(value); case MILLI: case SECOND: default: return ourHumanDateTimeFormat.format(value); } } /** * Returns a human readable version of this date/time using the system local format, converted to the local timezone * if neccesary. * * @see #toHumanDisplay() for a method which does not convert the time to the local timezone before rendering it. */ public String toHumanDisplayLocalTimezone() { switch (getPrecision()) { case YEAR: case MONTH: case DAY: return ourHumanDateFormat.format(getValue()); case MILLI: case SECOND: default: return ourHumanDateTimeFormat.format(getValue()); } } private void validateCharAtIndexIs(String theValue, int theIndex, char theChar) { if (theValue.charAt(theIndex) != theChar) { throwBadDateFormat( theValue, "Expected character '" + theChar + "' at index " + theIndex + " but found " + theValue.charAt(theIndex)); } } private void validateLengthIsAtLeast(String theValue, int theLength) { if (theValue.length() < theLength) { throwBadDateFormat(theValue); } } private void validateValueInRange(long theValue, long theMinimum, long theMaximum) { if (theValue < theMinimum || theValue > theMaximum) { throw new IllegalArgumentException(Msg.code(1884) + "Value " + theValue + " is not between allowable range: " + theMinimum + " - " + theMaximum); } } private void validatePrecisionAndThrowDataFormatException(String theValue, TemporalPrecisionEnum thePrecision) { if (isPrecisionAllowed(thePrecision) == false) { throw new DataFormatException(Msg.code(1885) + "Invalid date/time string (datatype " + getClass().getSimpleName() + " does not support " + thePrecision + " precision): " + theValue); } } }




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