studio.raptor.sqlparser.fast.util.LocalDateTimeUtils Maven / Gradle / Ivy
/*
* Copyright 2004-2014 H2 Group. Multiple-Licensed under the MPL 2.0,
* and the EPL 1.0 (http://h2database.com/html/license.html).
* Initial Developer: H2 Group
* Iso8601: Initial Developer: Philippe Marschall (firstName dot lastName
* at gmail dot com)
*/
package studio.raptor.sqlparser.fast.util;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.sql.Date;
import java.util.Arrays;
import java.util.concurrent.TimeUnit;
import studio.raptor.sqlparser.fast.api.TimestampWithTimeZone;
import studio.raptor.sqlparser.fast.message.ParseException;
import studio.raptor.sqlparser.fast.value.Value;
import studio.raptor.sqlparser.fast.value.ValueDate;
import studio.raptor.sqlparser.fast.value.ValueTime;
import studio.raptor.sqlparser.fast.value.ValueTimestamp;
import studio.raptor.sqlparser.fast.value.ValueTimestampTimeZone;
/**
* This utility class contains time conversion functions for Java 8
* Date and Time API classes.
*
* This class is implemented using reflection so that it compiles on
* Java 7 as well.
*
* For LocalDate and LocalTime the conversion methods provided by
* the JDK are used. For OffsetDateTime a custom conversion method is
* used because it has no equivalent in JDBC. For LocalDateTime a
* custom conversion method is used instead of the one provided by the
* JDK as well.
*
* Using the JDK provided conversion method for LocalDateTime would
* introduces some errors in edge cases. Consider the following case:
* at 2016-03-27 02:00 in Europe/Berlin the clocks were set to
* 2016-03-27 03:00. This means that 2016-03-27 02:15 does not exist in
* Europe/Berlin. Unfortunately java.sql.Timestamp is in the the time
* zone of the JVM. That means if you run a JVM with the time zone
* Europe/Berlin then the SQL value 'TIMESTAMP 2016-03-27 02:15:00' can
* not be represented. java.time.LocalDateTime does not have these
* limitations but if we convert through java.sql.Timestamp we inherit
* its limitations. Therefore that conversion must be avoided.
*
* Once the driver requires Java 8 all the reflection can be removed.
*/
public class LocalDateTimeUtils {
// Class
private static final Class> LOCAL_DATE;
// Class
private static final Class> LOCAL_TIME;
// Class
private static final Class> LOCAL_DATE_TIME;
// Class
private static final Class> OFFSET_DATE_TIME;
// Class
private static final Class> ZONE_OFFSET;
// java.sql.Date#toLocalDate()
private static final Method TO_LOCAL_DATE;
// java.time.LocalTime#ofNanoOfDay()
private static final Method LOCAL_TIME_OF_NANO;
// java.sql.Date#valueOf(LocalDate)
private static final Method DATE_VALUE_OF;
// java.time.LocalTime#toNanoOfDay()
private static final Method LOCAL_TIME_TO_NANO;
// java.time.LocalDate#of(int, int, int)
private static final Method LOCAL_DATE_OF_YEAR_MONTH_DAY;
// java.time.LocalDate#parse(CharSequence)
private static final Method LOCAL_DATE_PARSE;
// java.time.LocalDate#getYear()
private static final Method LOCAL_DATE_GET_YEAR;
// java.time.LocalDate#getMonthValue()
private static final Method LOCAL_DATE_GET_MONTH_VALUE;
// java.time.LocalDate#getDayOfMonth()
private static final Method LOCAL_DATE_GET_DAY_OF_MONTH;
// java.time.LocalDate#atStartOfDay()
private static final Method LOCAL_DATE_AT_START_OF_DAY;
// java.time.LocalTime#parse(CharSequence)
private static final Method LOCAL_TIME_PARSE;
// java.time.LocalDateTime#plusNanos(long)
private static final Method LOCAL_DATE_TIME_PLUS_NANOS;
// java.time.LocalDateTime#toLocalDate()
private static final Method LOCAL_DATE_TIME_TO_LOCAL_DATE;
// java.time.LocalDateTime#truncatedTo(TemporalUnit)
private static final Method LOCAL_DATE_TIME_TRUNCATED_TO;
// java.time.LocalDateTime#parse(CharSequence)
private static final Method LOCAL_DATE_TIME_PARSE;
// java.time.ZoneOffset#ofTotalSeconds(int)
private static final Method ZONE_OFFSET_OF_TOTAL_SECONDS;
// java.time.OffsetDateTime#of(LocalDateTime, ZoneOffset)
private static final Method OFFSET_DATE_TIME_OF_LOCAL_DATE_TIME_ZONE_OFFSET;
// java.time.OffsetDateTime#parse(CharSequence)
private static final Method OFFSET_DATE_TIME_PARSE;
// java.time.OffsetDateTime#toLocalDateTime()
private static final Method OFFSET_DATE_TIME_TO_LOCAL_DATE_TIME;
// java.time.OffsetDateTime#getOffset()
private static final Method OFFSET_DATE_TIME_GET_OFFSET;
// java.time.ZoneOffset#getTotalSeconds()
private static final Method ZONE_OFFSET_GET_TOTAL_SECONDS;
// java.time.Duration#between(Temporal, Temporal)
private static final Method DURATION_BETWEEN;
// java.time.Duration#toNanos()
private static final Method DURATION_TO_NANOS;
// java.time.temporal.ChronoUnit#DAYS
private static final Object CHRONO_UNIT_DAYS;
private static final boolean IS_JAVA8_DATE_API_PRESENT;
static {
LOCAL_DATE = tryGetClass("java.time.LocalDate");
LOCAL_TIME = tryGetClass("java.time.LocalTime");
LOCAL_DATE_TIME = tryGetClass("java.time.LocalDateTime");
OFFSET_DATE_TIME = tryGetClass("java.time.OffsetDateTime");
ZONE_OFFSET = tryGetClass("java.time.ZoneOffset");
IS_JAVA8_DATE_API_PRESENT = LOCAL_DATE != null && LOCAL_TIME != null &&
LOCAL_DATE_TIME != null && OFFSET_DATE_TIME != null &&
ZONE_OFFSET != null;
if (IS_JAVA8_DATE_API_PRESENT) {
Class> temporalUnit = getClass("java.time.temporal.TemporalUnit");
Class> chronoUnit = getClass("java.time.temporal.ChronoUnit");
Class> duration = getClass("java.time.Duration");
Class> temporal = getClass("java.time.temporal.Temporal");
TO_LOCAL_DATE = getMethod(java.sql.Date.class, "toLocalDate");
LOCAL_TIME_OF_NANO = getMethod(LOCAL_TIME, "ofNanoOfDay", long.class);
DATE_VALUE_OF = getMethod(java.sql.Date.class, "valueOf", LOCAL_DATE);
LOCAL_TIME_TO_NANO = getMethod(LOCAL_TIME, "toNanoOfDay");
LOCAL_DATE_OF_YEAR_MONTH_DAY = getMethod(LOCAL_DATE, "of",
int.class, int.class, int.class);
LOCAL_DATE_PARSE = getMethod(LOCAL_DATE, "parse",
CharSequence.class);
LOCAL_DATE_GET_YEAR = getMethod(LOCAL_DATE, "getYear");
LOCAL_DATE_GET_MONTH_VALUE = getMethod(LOCAL_DATE, "getMonthValue");
LOCAL_DATE_GET_DAY_OF_MONTH = getMethod(LOCAL_DATE, "getDayOfMonth");
LOCAL_DATE_AT_START_OF_DAY = getMethod(LOCAL_DATE, "atStartOfDay");
LOCAL_TIME_PARSE = getMethod(LOCAL_TIME, "parse", CharSequence.class);
LOCAL_DATE_TIME_PLUS_NANOS = getMethod(LOCAL_DATE_TIME, "plusNanos", long.class);
LOCAL_DATE_TIME_TO_LOCAL_DATE = getMethod(LOCAL_DATE_TIME, "toLocalDate");
LOCAL_DATE_TIME_TRUNCATED_TO = getMethod(LOCAL_DATE_TIME, "truncatedTo", temporalUnit);
LOCAL_DATE_TIME_PARSE = getMethod(LOCAL_DATE_TIME, "parse", CharSequence.class);
ZONE_OFFSET_OF_TOTAL_SECONDS = getMethod(ZONE_OFFSET, "ofTotalSeconds", int.class);
OFFSET_DATE_TIME_TO_LOCAL_DATE_TIME = getMethod(OFFSET_DATE_TIME, "toLocalDateTime");
OFFSET_DATE_TIME_GET_OFFSET = getMethod(OFFSET_DATE_TIME, "getOffset");
OFFSET_DATE_TIME_OF_LOCAL_DATE_TIME_ZONE_OFFSET = getMethod(
OFFSET_DATE_TIME, "of", LOCAL_DATE_TIME, ZONE_OFFSET);
OFFSET_DATE_TIME_PARSE = getMethod(OFFSET_DATE_TIME, "parse", CharSequence.class);
ZONE_OFFSET_GET_TOTAL_SECONDS = getMethod(ZONE_OFFSET, "getTotalSeconds");
DURATION_BETWEEN = getMethod(duration, "between", temporal, temporal);
DURATION_TO_NANOS = getMethod(duration, "toNanos");
CHRONO_UNIT_DAYS = getFieldValue(chronoUnit, "DAYS");
} else {
TO_LOCAL_DATE = null;
LOCAL_TIME_OF_NANO = null;
DATE_VALUE_OF = null;
LOCAL_TIME_TO_NANO = null;
LOCAL_DATE_OF_YEAR_MONTH_DAY = null;
LOCAL_DATE_PARSE = null;
LOCAL_DATE_GET_YEAR = null;
LOCAL_DATE_GET_MONTH_VALUE = null;
LOCAL_DATE_GET_DAY_OF_MONTH = null;
LOCAL_DATE_AT_START_OF_DAY = null;
LOCAL_TIME_PARSE = null;
LOCAL_DATE_TIME_PLUS_NANOS = null;
LOCAL_DATE_TIME_TO_LOCAL_DATE = null;
LOCAL_DATE_TIME_TRUNCATED_TO = null;
LOCAL_DATE_TIME_PARSE = null;
ZONE_OFFSET_OF_TOTAL_SECONDS = null;
OFFSET_DATE_TIME_TO_LOCAL_DATE_TIME = null;
OFFSET_DATE_TIME_GET_OFFSET = null;
OFFSET_DATE_TIME_OF_LOCAL_DATE_TIME_ZONE_OFFSET = null;
OFFSET_DATE_TIME_PARSE = null;
ZONE_OFFSET_GET_TOTAL_SECONDS = null;
DURATION_BETWEEN = null;
DURATION_TO_NANOS = null;
CHRONO_UNIT_DAYS = null;
}
}
private LocalDateTimeUtils() {
// utility class
}
private static Class> tryGetClass(String className) {
try {
return Class.forName(className);
} catch (ClassNotFoundException e) {
return null;
}
}
private static Class> getClass(String className) {
try {
return Class.forName(className);
} catch (ClassNotFoundException e) {
throw new IllegalStateException("Java 8 or later but class " +
className + " is missing", e);
}
}
private static Method getMethod(Class> clazz, String methodName,
Class>... parameterTypes) {
try {
return clazz.getMethod(methodName, parameterTypes);
} catch (NoSuchMethodException e) {
throw new IllegalStateException("Java 8 or later but method " +
clazz.getName() + "#" + methodName + "(" +
Arrays.toString(parameterTypes) + ") is missing", e);
}
}
private static Object getFieldValue(Class> clazz, String fieldName) {
try {
return clazz.getField(fieldName).get(null);
} catch (NoSuchFieldException | IllegalAccessException e) {
throw new IllegalStateException("Java 8 or later but field " +
clazz.getName() + "#" + fieldName + " is missing", e);
}
}
/**
* Checks if the given class is LocalDate.
*
* This method can be called from Java 7.
*
* @param clazz the class to check
* @return if the class is LocalDate
*/
public static boolean isLocalDate(Class> clazz) {
return LOCAL_DATE == clazz;
}
/**
* Checks if the given class is LocalTime.
*
* This method can be called from Java 7.
*
* @param clazz the class to check
* @return if the class is LocalTime
*/
public static boolean isLocalTime(Class> clazz) {
return LOCAL_TIME == clazz;
}
/**
* Checks if the given class is LocalDateTime.
*
* This method can be called from Java 7.
*
* @param clazz the class to check
* @return if the class is LocalDateTime
*/
public static boolean isLocalDateTime(Class> clazz) {
return LOCAL_DATE_TIME == clazz;
}
/**
* Checks if the given class is OffsetDateTime.
*
* This method can be called from Java 7.
*
* @param clazz the class to check
* @return if the class is OffsetDateTime
*/
public static boolean isOffsetDateTime(Class> clazz) {
return OFFSET_DATE_TIME == clazz;
}
/**
* Converts a value to a LocalDate.
*
* This method should only called from Java 8 or later.
*
* @param value the value to convert
* @return the LocalDate
*/
public static Object valueToLocalDate(Value value) {
return dateToLocalDate(value.getDate());
}
/**
* Converts a value to a LocalTime.
*
* This method should only called from Java 8 or later.
*
* @param value the value to convert
* @return the LocalTime
*/
public static Object valueToLocalTime(Value value) {
try {
return LOCAL_TIME_OF_NANO.invoke(null,
((ValueTime) value.convertTo(Value.TIME)).getNanos());
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "time conversion failed");
}
}
private static Object dateToLocalDate(Date date) {
try {
return TO_LOCAL_DATE.invoke(date);
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "date conversion failed");
}
}
/**
* Converts a value to a LocalDateTime.
*
* This method should only called from Java 8 or later.
*
* @param value the value to convert
* @return the LocalDateTime
*/
public static Object valueToLocalDateTime(ValueTimestamp value) {
long dateValue = value.getDateValue();
long timeNanos = value.getTimeNanos();
try {
Object localDate = localDateFromDateValue(dateValue);
Object localDateTime = LOCAL_DATE_AT_START_OF_DAY.invoke(localDate);
return LOCAL_DATE_TIME_PLUS_NANOS.invoke(localDateTime, timeNanos);
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "timestamp conversion failed");
}
}
/**
* Converts a value to a OffsetDateTime.
*
* This method should only called from Java 8 or later.
*
* @param value the value to convert
* @return the OffsetDateTime
*/
public static Object valueToOffsetDateTime(ValueTimestampTimeZone value) {
return timestampWithTimeZoneToOffsetDateTime((TimestampWithTimeZone) value.getObject());
}
private static Object timestampWithTimeZoneToOffsetDateTime(
TimestampWithTimeZone timestampWithTimeZone) {
long dateValue = timestampWithTimeZone.getYMD();
long timeNanos = timestampWithTimeZone.getNanosSinceMidnight();
try {
Object localDateTime = localDateTimeFromDateNanos(dateValue, timeNanos);
short timeZoneOffsetMins = timestampWithTimeZone.getTimeZoneOffsetMins();
int offsetSeconds = (int) TimeUnit.MINUTES.toSeconds(timeZoneOffsetMins);
Object offset = ZONE_OFFSET_OF_TOTAL_SECONDS.invoke(null, offsetSeconds);
return OFFSET_DATE_TIME_OF_LOCAL_DATE_TIME_ZONE_OFFSET.invoke(null,
localDateTime, offset);
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "timestamp with time zone conversion failed");
}
}
/**
* Converts a LocalDate to a Value.
*
* @param localDate the LocalDate to convert, not {@code null}
* @return the value
*/
public static Value localDateToDateValue(Object localDate) {
try {
Date date = (Date) DATE_VALUE_OF.invoke(null, localDate);
return ValueDate.get(date);
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "date conversion failed");
}
}
/**
* Converts a LocalTime to a Value.
*
* @param localTime the LocalTime to convert, not {@code null}
* @return the value
*/
public static Value localTimeToTimeValue(Object localTime) {
try {
return ValueTime.fromNanos((Long) LOCAL_TIME_TO_NANO.invoke(localTime));
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "time conversion failed");
}
}
/**
* Converts a LocalDateTime to a Value.
*
* @param localDateTime the LocalDateTime to convert, not {@code null}
* @return the value
*/
public static Value localDateTimeToValue(Object localDateTime) {
try {
Object localDate = LOCAL_DATE_TIME_TO_LOCAL_DATE.invoke(localDateTime);
long dateValue = dateValueFromLocalDate(localDate);
long timeNanos = timeNanosFromLocalDate(localDateTime);
return ValueTimestamp.fromDateValueAndNanos(dateValue, timeNanos);
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "local date time conversion failed");
}
}
/**
* Converts a OffsetDateTime to a Value.
*
* @param offsetDateTime the OffsetDateTime to convert, not {@code null}
* @return the value
*/
public static Value offsetDateTimeToValue(Object offsetDateTime) {
try {
Object localDateTime = OFFSET_DATE_TIME_TO_LOCAL_DATE_TIME.invoke(offsetDateTime);
Object localDate = LOCAL_DATE_TIME_TO_LOCAL_DATE.invoke(localDateTime);
Object zoneOffset = OFFSET_DATE_TIME_GET_OFFSET.invoke(offsetDateTime);
long dateValue = dateValueFromLocalDate(localDate);
long timeNanos = timeNanosFromLocalDate(localDateTime);
short timeZoneOffsetMins = zoneOffsetToOffsetMinute(zoneOffset);
return ValueTimestampTimeZone.fromDateValueAndNanos(dateValue,
timeNanos, timeZoneOffsetMins);
} catch (IllegalAccessException e) {
throw ParseException.convert(e);
} catch (InvocationTargetException e) {
throw ParseException.convertInvocation(e, "time conversion failed");
}
}
private static long dateValueFromLocalDate(Object localDate)
throws IllegalAccessException, InvocationTargetException {
int year = (Integer) LOCAL_DATE_GET_YEAR.invoke(localDate);
int month = (Integer) LOCAL_DATE_GET_MONTH_VALUE.invoke(localDate);
int day = (Integer) LOCAL_DATE_GET_DAY_OF_MONTH.invoke(localDate);
return DateTimeUtils.dateValue(year, month, day);
}
private static long timeNanosFromLocalDate(Object localDateTime)
throws IllegalAccessException, InvocationTargetException {
Object midnight = LOCAL_DATE_TIME_TRUNCATED_TO.invoke(localDateTime, CHRONO_UNIT_DAYS);
Object duration = DURATION_BETWEEN.invoke(null, midnight, localDateTime);
return (Long) DURATION_TO_NANOS.invoke(duration);
}
private static short zoneOffsetToOffsetMinute(Object zoneOffset)
throws IllegalAccessException, InvocationTargetException {
int totalSeconds = (Integer) ZONE_OFFSET_GET_TOTAL_SECONDS.invoke(zoneOffset);
return (short) TimeUnit.SECONDS.toMinutes(totalSeconds);
}
private static Object localDateFromDateValue(long dateValue)
throws IllegalAccessException, InvocationTargetException {
int year = DateTimeUtils.yearFromDateValue(dateValue);
int month = DateTimeUtils.monthFromDateValue(dateValue);
int day = DateTimeUtils.dayFromDateValue(dateValue);
return LOCAL_DATE_OF_YEAR_MONTH_DAY.invoke(null, year, month, day);
}
private static Object localDateTimeFromDateNanos(long dateValue, long timeNanos)
throws IllegalAccessException, InvocationTargetException {
Object localDate = localDateFromDateValue(dateValue);
Object localDateTime = LOCAL_DATE_AT_START_OF_DAY.invoke(localDate);
return LOCAL_DATE_TIME_PLUS_NANOS.invoke(localDateTime, timeNanos);
}
}