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/*
* Copyright 2015 Anton Tananaev (anton@traccar.org)
*
* 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 org.traccar.helper;
import java.util.Date;
import java.util.TimeZone;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
public class Parser {
private int position;
private final Matcher matcher;
public Parser(Pattern pattern, String input) {
matcher = pattern.matcher(input);
}
public boolean matches() {
position = 1;
return matcher.matches();
}
public boolean find() {
position = 1;
return matcher.find();
}
public void skip(int number) {
position += number;
}
public boolean hasNext() {
return hasNext(1);
}
public boolean hasNext(int number) {
String value = matcher.group(position);
if (value != null && !value.isEmpty()) {
return true;
} else {
position += number;
return false;
}
}
public String next() {
return matcher.group(position++);
}
public int nextInt() {
return nextInt(10);
}
public int nextInt(int radix) {
if (hasNext()) {
return Integer.parseInt(next(), radix);
} else {
return 0;
}
}
public long nextLong() {
return nextLong(10);
}
public long nextLong(int radix) {
if (hasNext()) {
return Long.parseLong(next(), radix);
} else {
return 0;
}
}
public double nextDouble() {
if (hasNext()) {
return Double.parseDouble(next());
} else {
return 0.0;
}
}
public enum CoordinateFormat {
DEG_DEG,
DEG_HEM,
DEG_MIN_MIN,
DEG_MIN_HEM,
DEG_MIN_MIN_HEM,
HEM_DEG_MIN_MIN,
HEM_DEG,
HEM_DEG_MIN,
HEM_DEG_MIN_HEM
}
public double nextCoordinate(CoordinateFormat format) {
double coordinate;
String hemisphere = null;
switch (format) {
case DEG_DEG:
coordinate = Double.parseDouble(next() + '.' + next());
break;
case DEG_HEM:
coordinate = nextDouble();
hemisphere = next();
break;
case DEG_MIN_MIN:
coordinate = nextInt();
coordinate += Double.parseDouble(next() + '.' + next()) / 60;
break;
case DEG_MIN_MIN_HEM:
coordinate = nextInt();
coordinate += Double.parseDouble(next() + '.' + next()) / 60;
hemisphere = next();
break;
case HEM_DEG:
hemisphere = next();
coordinate = nextDouble();
break;
case HEM_DEG_MIN:
hemisphere = next();
coordinate = nextInt();
coordinate += nextDouble() / 60;
break;
case HEM_DEG_MIN_HEM:
hemisphere = next();
coordinate = nextInt();
coordinate += nextDouble() / 60;
if (hasNext()) {
hemisphere = next();
}
break;
case HEM_DEG_MIN_MIN:
hemisphere = next();
coordinate = nextInt();
coordinate += Double.parseDouble(next() + '.' + next()) / 60;
break;
case DEG_MIN_HEM:
default:
coordinate = nextInt();
coordinate += nextDouble() / 60;
hemisphere = next();
break;
}
if (hemisphere != null && (hemisphere.equals("S") || hemisphere.equals("W") || hemisphere.equals("-"))) {
coordinate = -Math.abs(coordinate);
}
return coordinate;
}
public double nextCoordinate() {
return nextCoordinate(CoordinateFormat.DEG_MIN_HEM);
}
public enum DateTimeFormat {
HMS, // HHMMSS
SMH, // SSMMHH
HMS_Y4MD, // HHMMSSYYYYMMDD
HMS_Y2MD, // HHMMSSYYMMDD
HMS_DMY4, // HHMMSSDDMMYYYY
HMS_DMY2, // HHMMSSDDMMYY
SMH_Y4MD, // SSMMHHYYYYMMD
SMH_Y2MD, // SSMMHHYYMMDD
SMH_DMY4, // SSMMHHDDMMYYYY
SMH_DMY2, // SSMMHHDDMMYY
DMY4_HMS, // DDMMYYYYHHMMSS
DMY4_HMSms, // DDMMYYYYHHMMSS.m+
DMY2_HMS, // DDMMYYHHMMSS
DMY2_HMSms, // DDMMYYHHMMSS.m+
Y4MD_HMS, // YYYYMMDDHHMMSS
Y4MD_HMSms, // YYYYMMDDHHMMSS.m+
Y2MD_HMS, // YYMMDDHHMMSS
Y2MD_HMSms, // YYMMDDHHMMSS.m+
ISO8601 // YYYY-MM-DDTHH:MM:SS+HH:MM
}
private static final DateTimeFormat DEFAULT_FORMAT = DateTimeFormat.Y4MD_HMS;
private static final String DEFAULT_TZ = "UTC";
private static final int DEFAULT_RADIX = 10;
public Date nextDateTime(DateTimeFormat format, String tz, int radix) {
int year = 0, month = 0, day = 0;
int hour = 0, minute = 0, second = 0, millisecond = 0;
TimeZone timeZone = TimeZone.getTimeZone(tz);
switch (format) {
case HMS:
hour = nextInt(radix); minute = nextInt(radix); second = nextInt(radix); // (d{2})(d{2})(d{2})
break;
case SMH:
second = nextInt(radix); minute = nextInt(radix); hour = nextInt(radix); // (d{2})(d{2})(d{2})
break;
case HMS_Y4MD:
case HMS_Y2MD:
hour = nextInt(radix); minute = nextInt(radix); second = nextInt(radix); // (d{2})(d{2})(d{2})
year = nextInt(radix); month = nextInt(radix); day = nextInt(radix); // (d{2}|d{4})(d{2})(d{2})
break;
case HMS_DMY4:
case HMS_DMY2:
hour = nextInt(radix); minute = nextInt(radix); second = nextInt(radix); // (d{2})(d{2})(d{2})
day = nextInt(radix); month = nextInt(radix); year = nextInt(radix); // (d{2})(d{2})(d{2}|d{4})
break;
case SMH_Y4MD:
case SMH_Y2MD:
second = nextInt(radix); minute = nextInt(radix); hour = nextInt(radix); // (d{2})(d{2})(d{2})
year = nextInt(radix); month = nextInt(radix); day = nextInt(radix); // (d{2}|d{4})(d{2})(d{2})
break;
case SMH_DMY4:
case SMH_DMY2:
second = nextInt(radix); minute = nextInt(radix); hour = nextInt(radix); // (d{2})(d{2})(d{2})
day = nextInt(radix); month = nextInt(radix); year = nextInt(radix); // (d{2})(d{2})(d{2}|d{4})
break;
case DMY4_HMS:
case DMY4_HMSms:
case DMY2_HMS:
case DMY2_HMSms:
day = nextInt(radix); month = nextInt(radix); year = nextInt(radix); // (d{2})(d{2})(d{2}|d{4})
hour = nextInt(radix); minute = nextInt(radix); second = nextInt(radix); // (d{2})(d{2})(d{2})
break;
case Y4MD_HMS:
case Y4MD_HMSms:
case Y2MD_HMS:
case Y2MD_HMSms:
case ISO8601:
default:
year = nextInt(radix); month = nextInt(radix); day = nextInt(radix); // (d{2}|d{4})(d{2})(d{2})
hour = nextInt(radix); minute = nextInt(radix); second = nextInt(radix); // (d{2})(d{2})(d{2})
break;
}
switch (format) {
case HMS_Y2MD:
case HMS_DMY2:
case SMH_Y2MD:
case SMH_DMY2:
case DMY2_HMS:
case DMY2_HMSms:
case Y2MD_HMS:
case Y2MD_HMSms:
if (year >= 0 && year < 100) {
year += 2000; // Future Y3K issue :)
}
break;
case ISO8601:
timeZone = TimeZone.getTimeZone("GMT" + next()); // ([+-]d{2}:d{2})
break;
default:
break;
}
switch (format) {
case Y4MD_HMSms:
case Y2MD_HMSms:
case DMY4_HMSms:
case DMY2_HMSms:
millisecond = nextInt(radix); // (d+)
break;
default:
break;
}
DateBuilder dateBuilder = new DateBuilder(timeZone);
if (format != DateTimeFormat.HMS || format != DateTimeFormat.SMH) {
dateBuilder.setDate(year, month, day);
}
dateBuilder.setTime(hour, minute, second, millisecond);
return dateBuilder.getDate();
}
public Date nextDateTime(String tz, int radix) {
return nextDateTime(DEFAULT_FORMAT, tz, radix);
}
public Date nextDateTime(DateTimeFormat format, int radix) {
return nextDateTime(format, DEFAULT_TZ, radix);
}
public Date nextDateTime(DateTimeFormat format, String tz) {
return nextDateTime(format, tz, DEFAULT_RADIX);
}
public Date nextDateTime(DateTimeFormat format) {
return nextDateTime(format, DEFAULT_TZ, DEFAULT_RADIX);
}
public Date nextDateTime(String tz) {
return nextDateTime(DEFAULT_FORMAT, tz, DEFAULT_RADIX);
}
public Date nextDateTime(int radix) {
return nextDateTime(DEFAULT_FORMAT, DEFAULT_TZ, radix);
}
public Date nextDateTime() {
return nextDateTime(DEFAULT_FORMAT, DEFAULT_TZ, DEFAULT_RADIX);
}
}
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