/* * Copyright (C) 2004-2015 L2J Server * * This file is part of L2J Server. * * L2J Server is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * L2J Server is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ package com.l2jserver.gameserver.util; import java.io.File; import java.text.DateFormat; import java.text.DecimalFormat; import java.text.DecimalFormatSymbols; import java.text.NumberFormat; import java.text.SimpleDateFormat; import java.util.Arrays; import java.util.Collection; import java.util.Date; import java.util.Locale; import java.util.StringJoiner; import java.util.logging.Logger; import com.l2jserver.Config; import com.l2jserver.gameserver.GeoData; import com.l2jserver.gameserver.ThreadPoolManager; import com.l2jserver.gameserver.enums.HtmlActionScope; import com.l2jserver.gameserver.enums.IllegalActionPunishmentType; import com.l2jserver.gameserver.model.L2Object; import com.l2jserver.gameserver.model.actor.L2Character; import com.l2jserver.gameserver.model.actor.instance.L2PcInstance; import com.l2jserver.gameserver.model.actor.tasks.player.IllegalPlayerActionTask; import com.l2jserver.gameserver.model.interfaces.ILocational; import com.l2jserver.gameserver.network.serverpackets.AbstractHtmlPacket; import com.l2jserver.gameserver.network.serverpackets.NpcHtmlMessage; import com.l2jserver.gameserver.network.serverpackets.ShowBoard; import com.l2jserver.util.file.filter.ExtFilter; /** * General Utility functions related to game server. */ public final class Util { private static final Logger LOGGER = Logger.getLogger(Util.class.getName()); private static final NumberFormat ADENA_FORMATTER = NumberFormat.getIntegerInstance(Locale.ENGLISH); public static void handleIllegalPlayerAction(L2PcInstance actor, String message, IllegalActionPunishmentType punishment) { ThreadPoolManager.getInstance().scheduleGeneral(new IllegalPlayerActionTask(actor, message, punishment), 5000); } public static String getRelativePath(File base, File file) { return file.toURI().getPath().substring(base.toURI().getPath().length()); } /** * @param from * @param to * @return degree value of object 2 to the horizontal line with object 1 being the origin. */ public static double calculateAngleFrom(ILocational from, ILocational to) { return calculateAngleFrom(from.getX(), from.getY(), to.getX(), to.getY()); } /** * @param fromX * @param fromY * @param toX * @param toY * @return degree value of object 2 to the horizontal line with object 1 being the origin */ public static final double calculateAngleFrom(int fromX, int fromY, int toX, int toY) { double angleTarget = Math.toDegrees(Math.atan2(toY - fromY, toX - fromX)); if (angleTarget < 0) { angleTarget = 360 + angleTarget; } return angleTarget; } public static final double convertHeadingToDegree(int clientHeading) { double degree = clientHeading / 182.044444444; return degree; } public static final int convertDegreeToClientHeading(double degree) { if (degree < 0) { degree = 360 + degree; } return (int) (degree * 182.044444444); } public static final int calculateHeadingFrom(ILocational from, ILocational to) { return calculateHeadingFrom(from.getX(), from.getY(), to.getX(), to.getY()); } public static final int calculateHeadingFrom(int fromX, int fromY, int toX, int toY) { double angleTarget = Math.toDegrees(Math.atan2(toY - fromY, toX - fromX)); if (angleTarget < 0) { angleTarget = 360 + angleTarget; } return (int) (angleTarget * 182.044444444); } public static final int calculateHeadingFrom(double dx, double dy) { double angleTarget = Math.toDegrees(Math.atan2(dy, dx)); if (angleTarget < 0) { angleTarget = 360 + angleTarget; } return (int) (angleTarget * 182.044444444); } /** * Calculates distance between one set of x, y, z and another set of x, y, z. * @param x1 - X coordinate of first point. * @param y1 - Y coordinate of first point. * @param z1 - Z coordinate of first point. * @param x2 - X coordinate of second point. * @param y2 - Y coordinate of second point. * @param z2 - Z coordinate of second point. * @param includeZAxis - If set to true, Z coordinates will be included. * @param squared - If set to true, distance returned will be squared. * @return {@code double} - Distance between object and given x, y , z. */ public static double calculateDistance(double x1, double y1, double z1, double x2, double y2, double z2, boolean includeZAxis, boolean squared) { final double distance = Math.pow(x1 - x2, 2) + Math.pow(y1 - y2, 2) + (includeZAxis ? Math.pow(z1 - z2, 2) : 0); return (squared) ? distance : Math.sqrt(distance); } /** * Calculates distance between 2 locations. * @param loc1 - First location. * @param loc2 - Second location. * @param includeZAxis - If set to true, Z coordinates will be included. * @param squared - If set to true, distance returned will be squared. * @return {@code double} - Distance between object and given location. */ public static double calculateDistance(ILocational loc1, ILocational loc2, boolean includeZAxis, boolean squared) { return calculateDistance(loc1.getX(), loc1.getY(), loc1.getZ(), loc2.getX(), loc2.getY(), loc2.getZ(), includeZAxis, squared); } /** * @param str - the string whose first letter to capitalize * @return a string with the first letter of the {@code str} capitalized */ public static String capitalizeFirst(String str) { if ((str == null) || str.isEmpty()) { return str; } final char[] arr = str.toCharArray(); final char c = arr[0]; if (Character.isLetter(c)) { arr[0] = Character.toUpperCase(c); } return new String(arr); } /** * (Based on ucwords() function of PHP)
* DrHouse: still functional but must be rewritten to avoid += to concat strings * @param str - the string to capitalize * @return a string with the first letter of every word in {@code str} capitalized */ @Deprecated public static String capitalizeWords(String str) { if ((str == null) || str.isEmpty()) { return str; } char[] charArray = str.toCharArray(); StringBuilder result = new StringBuilder(); // Capitalize the first letter in the given string! charArray[0] = Character.toUpperCase(charArray[0]); for (int i = 0; i < charArray.length; i++) { if (Character.isWhitespace(charArray[i])) { charArray[i + 1] = Character.toUpperCase(charArray[i + 1]); } result.append(charArray[i]); } return result.toString(); } /** * @param range * @param obj1 * @param obj2 * @param includeZAxis * @return {@code true} if the two objects are within specified range between each other, {@code false} otherwise */ public static boolean checkIfInRange(int range, L2Object obj1, L2Object obj2, boolean includeZAxis) { if ((obj1 == null) || (obj2 == null)) { return false; } if (obj1.getInstanceId() != obj2.getInstanceId()) { return false; } if (range == -1) { return true; // not limited } int rad = 0; if (obj1 instanceof L2Character) { rad += ((L2Character) obj1).getTemplate().getCollisionRadius(); } if (obj2 instanceof L2Character) { rad += ((L2Character) obj2).getTemplate().getCollisionRadius(); } double dx = obj1.getX() - obj2.getX(); double dy = obj1.getY() - obj2.getY(); double d = (dx * dx) + (dy * dy); if (includeZAxis) { double dz = obj1.getZ() - obj2.getZ(); d += (dz * dz); } return d <= ((range * range) + (2 * range * rad) + (rad * rad)); } /** * Checks if object is within short (sqrt(int.max_value)) radius, not using collisionRadius. Faster calculation than checkIfInRange if distance is short and collisionRadius isn't needed. Not for long distance checks (potential teleports, far away castles etc). * @param radius * @param obj1 * @param obj2 * @param includeZAxis if true, check also Z axis (3-dimensional check), otherwise only 2D * @return {@code true} if objects are within specified range between each other, {@code false} otherwise */ public static boolean checkIfInShortRadius(int radius, L2Object obj1, L2Object obj2, boolean includeZAxis) { if ((obj1 == null) || (obj2 == null)) { return false; } if (radius == -1) { return true; // not limited } int dx = obj1.getX() - obj2.getX(); int dy = obj1.getY() - obj2.getY(); if (includeZAxis) { int dz = obj1.getZ() - obj2.getZ(); return ((dx * dx) + (dy * dy) + (dz * dz)) <= (radius * radius); } return ((dx * dx) + (dy * dy)) <= (radius * radius); } /** * @param str - the String to count * @return the number of "words" in a given string. */ public static int countWords(String str) { return str.trim().split("\\s+").length; } /** * (Based on implode() in PHP) * @param strings an array of strings to concatenate * @param delimiter the delimiter to put between the strings * @return a delimited string for a given array of string elements. */ public static String implodeString(Iterable strings, String delimiter) { final StringJoiner sj = new StringJoiner(delimiter); strings.forEach(sj::add); return sj.toString(); } /** * Based on implode() in PHP * @param * @param array * @param delim * @return a delimited string for a given array of string elements. */ public static String implode(T[] array, String delim) { String result = ""; for (T val : array) { result += val.toString() + delim; } if (!result.isEmpty()) { result = result.substring(0, result.length() - 1); } return result; } /** * (Based on round() in PHP) * @param number - the number to round * @param numPlaces - how many digits after decimal point to leave intact * @return the value of {@code number} rounded to specified number of digits after the decimal point. */ public static float roundTo(float number, int numPlaces) { if (numPlaces <= 1) { return Math.round(number); } float exponent = (float) Math.pow(10, numPlaces); return Math.round(number * exponent) / exponent; } /** * @param text - the text to check * @return {@code true} if {@code text} contains only numbers, {@code false} otherwise */ public static boolean isDigit(String text) { if ((text == null) || text.isEmpty()) { return false; } for (char c : text.toCharArray()) { if (!Character.isDigit(c)) { return false; } } return true; } /** * @param text - the text to check * @return {@code true} if {@code text} contains only letters and/or numbers, {@code false} otherwise */ public static boolean isAlphaNumeric(String text) { if ((text == null) || text.isEmpty()) { return false; } for (char c : text.toCharArray()) { if (!Character.isLetterOrDigit(c)) { return false; } } return true; } /** * Format the specified digit using the digit grouping symbol "," (comma).
* For example, 123456789 becomes 123,456,789. * @param amount - the amount of adena * @return the formatted adena amount */ public static String formatAdena(long amount) { synchronized (ADENA_FORMATTER) { return ADENA_FORMATTER.format(amount); } } /** * @param val * @param format * @return formatted double value by specified format. */ public static String formatDouble(double val, String format) { final DecimalFormat formatter = new DecimalFormat(format, new DecimalFormatSymbols(Locale.ENGLISH)); return formatter.format(val); } /** * Format the given date on the given format * @param date : the date to format. * @param format : the format to correct by. * @return a string representation of the formatted date. */ public static String formatDate(Date date, String format) { if (date == null) { return null; } final DateFormat dateFormat = new SimpleDateFormat(format); return dateFormat.format(date); } /** * @param * @param array - the array to look into * @param obj - the object to search for * @return {@code true} if the {@code array} contains the {@code obj}, {@code false} otherwise. */ public static boolean contains(T[] array, T obj) { for (T element : array) { if (element == obj) { return true; } } return false; } /** * @param array - the array to look into * @param obj - the integer to search for * @return {@code true} if the {@code array} contains the {@code obj}, {@code false} otherwise */ public static boolean contains(int[] array, int obj) { for (int element : array) { if (element == obj) { return true; } } return false; } public static File[] getDatapackFiles(String dirname, String extention) { File dir = new File(Config.DATAPACK_ROOT, "data/" + dirname); if (!dir.exists()) { return null; } return dir.listFiles(new ExtFilter(extention)); } public static String getDateString(Date date) { SimpleDateFormat dateFormat = new SimpleDateFormat("yyyy-MM-dd"); return dateFormat.format(date.getTime()); } private static final void buildHtmlBypassCache(L2PcInstance player, HtmlActionScope scope, String html) { String htmlLower = html.toLowerCase(Locale.ENGLISH); int bypassEnd = 0; int bypassStart = htmlLower.indexOf("=\"bypass ", bypassEnd); int bypassStartEnd; while (bypassStart != -1) { bypassStartEnd = bypassStart + 9; bypassEnd = htmlLower.indexOf("\"", bypassStartEnd); if (bypassEnd == -1) { break; } int hParamPos = htmlLower.indexOf("-h ", bypassStartEnd); String bypass; if ((hParamPos != -1) && (hParamPos < bypassEnd)) { bypass = html.substring(hParamPos + 3, bypassEnd).trim(); } else { bypass = html.substring(bypassStartEnd, bypassEnd).trim(); } int firstParameterStart = bypass.indexOf(AbstractHtmlPacket.VAR_PARAM_START_CHAR); if (firstParameterStart != -1) { bypass = bypass.substring(0, firstParameterStart + 1); } if (Config.HTML_ACTION_CACHE_DEBUG) { LOGGER.info("Cached html bypass(" + scope.toString() + "): '" + bypass + "'"); } player.addHtmlAction(scope, bypass); bypassStart = htmlLower.indexOf("=\"bypass ", bypassEnd); } } private static final void buildHtmlLinkCache(L2PcInstance player, HtmlActionScope scope, String html) { String htmlLower = html.toLowerCase(Locale.ENGLISH); int linkEnd = 0; int linkStart = htmlLower.indexOf("=\"link ", linkEnd); int linkStartEnd; while (linkStart != -1) { linkStartEnd = linkStart + 7; linkEnd = htmlLower.indexOf("\"", linkStartEnd); if (linkEnd == -1) { break; } String htmlLink = html.substring(linkStartEnd, linkEnd).trim(); if (htmlLink.isEmpty()) { LOGGER.warning("Html link path is empty!"); continue; } if (htmlLink.contains("..")) { LOGGER.warning("Html link path is invalid: " + htmlLink); continue; } if (Config.HTML_ACTION_CACHE_DEBUG) { LOGGER.info("Cached html link(" + scope.toString() + "): '" + htmlLink + "'"); } // let's keep an action cache with "link " lowercase literal kept player.addHtmlAction(scope, "link " + htmlLink); linkStart = htmlLower.indexOf("=\"link ", linkEnd); } } /** * Builds the html action cache for the specified scope.
* An {@code npcObjId} of 0 means, the cached actions can be clicked
* without beeing near an npc which is spawned in the world. * @param player the player to build the html action cache for * @param scope the scope to build the html action cache for * @param npcObjId the npc object id the html actions are cached for * @param html the html code to parse */ public static void buildHtmlActionCache(L2PcInstance player, HtmlActionScope scope, int npcObjId, String html) { if ((player == null) || (scope == null) || (npcObjId < 0) || (html == null)) { throw new IllegalArgumentException(); } if (Config.HTML_ACTION_CACHE_DEBUG) { LOGGER.info("Set html action npc(" + scope.toString() + "): " + npcObjId); } player.setHtmlActionOriginObjectId(scope, npcObjId); buildHtmlBypassCache(player, scope, html); buildHtmlLinkCache(player, scope, html); } /** * Helper method to send a NpcHtmlMessage to the specified player. * @param activeChar the player to send the html content to * @param html the html content */ public static void sendHtml(L2PcInstance activeChar, String html) { final NpcHtmlMessage npcHtml = new NpcHtmlMessage(); npcHtml.setHtml(html); activeChar.sendPacket(npcHtml); } /** * Helper method to send a community board html to the specified player.
* HtmlActionCache will be build with npc origin 0 which means the
* links on the html are not bound to a specific npc. * @param activeChar the player * @param html the html content */ public static void sendCBHtml(L2PcInstance activeChar, String html) { sendCBHtml(activeChar, html, 0); } /** * Helper method to send a community board html to the specified player.
* When {@code npcObjId} is greater -1 the HtmlActionCache will be build
* with the npcObjId as origin. An origin of 0 means the cached bypasses
* are not bound to a specific npc. * @param activeChar the player to send the html content to * @param html the html content * @param npcObjId bypass origin to use */ public static void sendCBHtml(L2PcInstance activeChar, String html, int npcObjId) { sendCBHtml(activeChar, html, null, npcObjId); } /** * Helper method to send a community board html to the specified player.
* HtmlActionCache will be build with npc origin 0 which means the
* links on the html are not bound to a specific npc. It also fills a
* multiedit field in the send html if fillMultiEdit is not null. * @param activeChar the player * @param html the html content * @param fillMultiEdit text to fill the multiedit field with(may be null) */ public static void sendCBHtml(L2PcInstance activeChar, String html, String fillMultiEdit) { sendCBHtml(activeChar, html, fillMultiEdit, 0); } /** * Helper method to send a community board html to the specified player.
* It fills a multiedit field in the send html if {@code fillMultiEdit}
* is not null. When {@code npcObjId} is greater -1 the HtmlActionCache will be build
* with the npcObjId as origin. An origin of 0 means the cached bypasses
* are not bound to a specific npc. * @param activeChar the player * @param html the html content * @param fillMultiEdit text to fill the multiedit field with(may be null) * @param npcObjId bypass origin to use */ public static void sendCBHtml(L2PcInstance activeChar, String html, String fillMultiEdit, int npcObjId) { if ((activeChar == null) || (html == null)) { return; } activeChar.clearHtmlActions(HtmlActionScope.COMM_BOARD_HTML); if (npcObjId > -1) { buildHtmlActionCache(activeChar, HtmlActionScope.COMM_BOARD_HTML, npcObjId, html); } if (fillMultiEdit != null) { activeChar.sendPacket(new ShowBoard(html, "1001")); fillMultiEditContent(activeChar, fillMultiEdit); } else { if (html.length() < 16250) { activeChar.sendPacket(new ShowBoard(html, "101")); activeChar.sendPacket(new ShowBoard(null, "102")); activeChar.sendPacket(new ShowBoard(null, "103")); } else if (html.length() < (16250 * 2)) { activeChar.sendPacket(new ShowBoard(html.substring(0, 16250), "101")); activeChar.sendPacket(new ShowBoard(html.substring(16250), "102")); activeChar.sendPacket(new ShowBoard(null, "103")); } else if (html.length() < (16250 * 3)) { activeChar.sendPacket(new ShowBoard(html.substring(0, 16250), "101")); activeChar.sendPacket(new ShowBoard(html.substring(16250, 16250 * 2), "102")); activeChar.sendPacket(new ShowBoard(html.substring(16250 * 2), "103")); } else { activeChar.sendPacket(new ShowBoard("
Error: HTML was too long!
", "101")); activeChar.sendPacket(new ShowBoard(null, "102")); activeChar.sendPacket(new ShowBoard(null, "103")); } } } /** * Fills the community board's multiedit window with text. Must send after sendCBHtml * @param activeChar * @param text */ public static void fillMultiEditContent(L2PcInstance activeChar, String text) { activeChar.sendPacket(new ShowBoard(Arrays.asList("0", "0", "0", "0", "0", "0", activeChar.getName(), Integer.toString(activeChar.getObjectId()), activeChar.getAccountName(), "9", " ", " ", text.replaceAll("
", Config.EOL), "0", "0", "0", "0"))); } /** * Return the number of playable characters in a defined radius around the specified object. * @param range : the radius in which to look for players * @param npc : the object whose knownlist to check * @param playable : if {@code true}, count summons and pets aswell * @param invisible : if {@code true}, count invisible characters aswell * @return the number of targets found */ public static int getPlayersCountInRadius(int range, L2Object npc, boolean playable, boolean invisible) { int count = 0; final Collection objs = npc.getKnownList().getKnownObjects().values(); for (L2Object obj : objs) { if ((obj != null) && (playable && (obj.isPlayable() || obj.isPet()))) { if (!invisible && obj.isInvisible()) { continue; } final L2Character cha = (L2Character) obj; if (((cha.getZ() < (npc.getZ() - 100)) && (cha.getZ() > (npc.getZ() + 100))) || !(GeoData.getInstance().canSeeTarget(cha.getX(), cha.getY(), cha.getZ(), npc.getX(), npc.getY(), npc.getZ()))) { continue; } if (Util.checkIfInRange(range, npc, obj, true) && !cha.isDead()) { count++; } } } return count; } public static boolean isInsideRangeOfObjectId(L2Object obj, int targetObjId, int radius) { L2Object target = obj.getKnownList().getKnownObjects().get(targetObjId); if (target == null) { return false; } if (obj.calculateDistance(target, false, false) > radius) { return false; } return true; } public static int min(int value1, int value2, int... values) { int min = Math.min(value1, value2); for (int value : values) { if (min > value) { min = value; } } return min; } public static int max(int value1, int value2, int... values) { int max = Math.max(value1, value2); for (int value : values) { if (max < value) { max = value; } } return max; } public static long min(long value1, long value2, long... values) { long min = Math.min(value1, value2); for (long value : values) { if (min > value) { min = value; } } return min; } public static long max(long value1, long value2, long... values) { long max = Math.max(value1, value2); for (long value : values) { if (max < value) { max = value; } } return max; } public static float min(float value1, float value2, float... values) { float min = Math.min(value1, value2); for (float value : values) { if (min > value) { min = value; } } return min; } public static float max(float value1, float value2, float... values) { float max = Math.max(value1, value2); for (float value : values) { if (max < value) { max = value; } } return max; } public static double min(double value1, double value2, double... values) { double min = Math.min(value1, value2); for (double value : values) { if (min > value) { min = value; } } return min; } public static double max(double value1, double value2, double... values) { double max = Math.max(value1, value2); for (double value : values) { if (max < value) { max = value; } } return max; } public static int getIndexOfMaxValue(int... array) { int index = 0; for (int i = 1; i < array.length; i++) { if (array[i] > array[index]) { index = i; } } return index; } public static int getIndexOfMinValue(int... array) { int index = 0; for (int i = 1; i < array.length; i++) { if (array[i] < array[index]) { index = i; } } return index; } /** * Re-Maps a value from one range to another. * @param input * @param inputMin * @param inputMax * @param outputMin * @param outputMax * @return The mapped value */ public static int map(int input, int inputMin, int inputMax, int outputMin, int outputMax) { input = constrain(input, inputMin, inputMax); return (((input - inputMin) * (outputMax - outputMin)) / (inputMax - inputMin)) + outputMin; } /** * Re-Maps a value from one range to another. * @param input * @param inputMin * @param inputMax * @param outputMin * @param outputMax * @return The mapped value */ public static long map(long input, long inputMin, long inputMax, long outputMin, long outputMax) { input = constrain(input, inputMin, inputMax); return (((input - inputMin) * (outputMax - outputMin)) / (inputMax - inputMin)) + outputMin; } /** * Re-Maps a value from one range to another. * @param input * @param inputMin * @param inputMax * @param outputMin * @param outputMax * @return The mapped value */ public static double map(double input, double inputMin, double inputMax, double outputMin, double outputMax) { input = constrain(input, inputMin, inputMax); return (((input - inputMin) * (outputMax - outputMin)) / (inputMax - inputMin)) + outputMin; } /** * Constrains a number to be within a range. * @param input the number to constrain, all data types * @param min the lower end of the range, all data types * @param max the upper end of the range, all data types * @return input: if input is between min and max, min: if input is less than min, max: if input is greater than max */ public static int constrain(int input, int min, int max) { return (input < min) ? min : (input > max) ? max : input; } /** * Constrains a number to be within a range. * @param input the number to constrain, all data types * @param min the lower end of the range, all data types * @param max the upper end of the range, all data types * @return input: if input is between min and max, min: if input is less than min, max: if input is greater than max */ public static long constrain(long input, long min, long max) { return (input < min) ? min : (input > max) ? max : input; } /** * Constrains a number to be within a range. * @param input the number to constrain, all data types * @param min the lower end of the range, all data types * @param max the upper end of the range, all data types * @return input: if input is between min and max, min: if input is less than min, max: if input is greater than max */ public static double constrain(double input, double min, double max) { return (input < min) ? min : (input > max) ? max : input; } /** * @param array - the array to look into * @param obj - the object to search for * @return {@code true} if the {@code array} contains the {@code obj}, {@code false} otherwise. */ public static boolean startsWith(String[] array, String obj) { for (String element : array) { if (element.startsWith(obj)) { return true; } } return false; } /** * @param array - the array to look into * @param obj - the object to search for * @param ignoreCase * @return {@code true} if the {@code array} contains the {@code obj}, {@code false} otherwise. */ public static boolean contains(String[] array, String obj, boolean ignoreCase) { for (String element : array) { if (element.equals(obj) || (ignoreCase && element.equalsIgnoreCase(obj))) { return true; } } return false; } }