//serverObjects.java //----------------------- //(C) by Michael Peter Christen; mc@yacy.net //first published on http://www.anomic.de //Frankfurt, Germany, 2004 //(C) changes by Bjoern 'fuchs' Krombholz // // $LastChangedDate: $ // $LastChangedRevision: $ // $LastChangedBy: $ // //This program 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 2 of the License, or //(at your option) any later version. //This program 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, write to the Free Software //Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA /* Why do we need this Class? The purpose of this class is to provide a hashtable object to the server and implementing interfaces. Values to and from cgi pages are encapsulated in this object. The server shall be executable in a Java 1.0 environment, so the following other options did not comply: Properties - setProperty would be needed, but only available in 1.2 HashMap, TreeMap - only in 1.2 Hashtable - available in 1.0, but 'put' does not accept null values So this class was created as a convenience. It will also contain special methods that read data from internet-resources in the background, while data can already be read out of the object. This shall speed up usage when a slow internet connection is used (dial-up) */ package de.anomic.server; import java.io.BufferedOutputStream; import java.io.File; import java.io.FileOutputStream; import java.io.IOException; import java.io.UnsupportedEncodingException; import java.net.InetAddress; import java.util.ArrayList; import java.util.HashMap; import java.util.Map; import de.anomic.htmlFilter.htmlFilterCharacterCoding; import de.anomic.kelondro.util.DateFormatter; import de.anomic.plasma.plasmaSwitchboard; import de.anomic.tools.Formatter; public class serverObjects extends HashMap implements Cloneable { private static final long serialVersionUID = 1L; private boolean localized = true; public serverObjects() { super(); } public serverObjects(final int initialCapacity) { super(initialCapacity); } public serverObjects(final Map input) { super(input); } /** * Add a key-value pair of Objects to the map. * @param key This method will do nothing if the key is null. * @param value The value that should be mapped to the key. * If value is null, then the element at key * is removed from the map. * @return The value that was added to the map. * @see java.util.Hashtable#put(K, V) */ public String put(final String key, final String value) { if (key == null) { // this does nothing return null; } else if (value == null) { // assigning the null value creates the same effect like removing the element return super.remove(key); } else { return super.put(key, value); } } /** * Add byte array to the map, value is kept as it is. * @param key key name as String. * @param value mapped value as a byte array. * @return the previous value as String. */ public String put(final String key, final byte[] value) { try { return this.put(key, new String(value, "UTF-8")); } catch (UnsupportedEncodingException e) { e.printStackTrace(); return null; } } /** * Add an unformatted String representation of a double/float value * to the map. * @param key key name as String. * @param value value as double/float. * @return value as it was added to the map or NaN if an error occured. */ public double put(final String key, final double value) { if (null == this.put(key, Double.toString(value))) { return Double.NaN; } return value; } /** * same as {@link #put(String, double)} but for integer types * @return Returns 0 for the error case. */ public long put(final String key, final long value) { if (null == this.put(key, Long.toString(value))) { return 0; } return value; } public String put(final String key, final java.util.Date value) { return this.put(key, value.toString()); } public String put(final String key, final DateFormatter value) { return this.put(key, value.toString()); } public String put(final String key, final InetAddress value) { return this.put(key, value.toString()); } /** * Add a String to the map. The content of the String is escaped to be usable in JSON output. * @param key key name as String. * @param value a String that will be reencoded for JSON output. * @return the modified String that was added to the map. */ public String putJSON(final String key, String value) { value = value.replaceAll("\"", "\\\""); value = value.replaceAll("/", "\\/"); // value = value.replaceAll("\\", "\\\\"); value = value.replaceAll("\b", "\\b"); value = value.replaceAll("\f", "\\f"); value = value.replaceAll("\n", "\\r"); value = value.replaceAll("\r", "\\r"); value = value.replaceAll("\t", "\\t"); return put(key, value); } public String putJSON(final String key, final byte[] value) { return putJSON(key, new String(value)); } /** * Add a String to the map. The content of the String is escaped to be usable in HTML output. * @param key key name as String. * @param value a String that will be reencoded for HTML output. * @return the modified String that was added to the map. * @see htmlFilterCharacterCoding#encodeUnicode2html(String, boolean) */ public String putHTML(final String key, final String value) { return put(key, htmlFilterCharacterCoding.unicode2html(value, true)); } public String putHTML(final String key, final byte[] value) { return putHTML(key, new String(value)); } /** * Like {@link #putHTML(String, String)} but takes an extra argument defining, if the returned * String should be used in normal HTML: false. * If forXML is true, then only the characters & " < > will be * replaced in the returned String. */ public String putXML(final String key, final String value) { return put(key, htmlFilterCharacterCoding.unicode2xml(value, true)); } /** * Add a byte/long/integer to the map. The number will be encoded into a String using * a localized format specified by {@link Formatter} and {@link #setLocalized(boolean)}. * @param key key name as String. * @param value integer type value to be added to the map in its formatted String * representation. * @return the String value added to the map. */ public String putNum(final String key, final long value) { return this.put(key, Formatter.number(value, this.localized)); } /** * Variant for double/float types. * @see #putNum(String, long) */ public String putNum(final String key, final double value) { return this.put(key, Formatter.number(value, this.localized)); } /** * Variant for string encoded numbers. * @see #putNum(String, long) */ public String putNum(final String key, final String value) { return this.put(key, Formatter.number(value)); } public String putWiki(final String key, final String wikiCode){ return this.put(key, plasmaSwitchboard.wikiParser.transform(wikiCode)); } public String putWiki(final String key, final byte[] wikiCode) { try { return this.put(key, plasmaSwitchboard.wikiParser.transform(wikiCode)); } catch (final UnsupportedEncodingException e) { return this.put(key, "Internal error pasting wiki-code: " + e.getMessage()); } } // inc variant: for counters public long inc(final String key) { String c = super.get(key); if (c == null) c = "0"; final long l = Long.parseLong(c) + 1; super.put(key, Long.toString(l)); return l; } // new get with default objects public Object get(final String key, final Object dflt) { final Object result = super.get(key); if (result == null) return dflt; return result; } // string variant public String get(final String key, final String dflt) { final Object result = super.get(key); if (result == null) return dflt; return (String) result; } public int getInt(final String key, final int dflt) { final String s = super.get(key); if (s == null) return dflt; try { return Integer.parseInt(s); } catch (final NumberFormatException e) { return dflt; } } public long getLong(final String key, final long dflt) { final String s = super.get(key); if (s == null) return dflt; try { return Long.parseLong(s); } catch (final NumberFormatException e) { return dflt; } } public double getDouble(final String key, final double dflt) { final String s = super.get(key); if (s == null) return dflt; try { return Double.parseDouble(s); } catch (final NumberFormatException e) { return dflt; } } public boolean hasValue(final String key) { final String s = super.get(key); if (s == null) return false; if (s == "") return false; return true; } // returns a set of all values where their key mappes the keyMapper public String[] getAll(final String keyMapper) { // the keyMapper may contain regular expressions as defined in String.matches // this method is particulary useful when parsing the result of checkbox forms final ArrayList v = new ArrayList(); String key; for (Map.Entry entry: entrySet()) { key = entry.getKey(); if (key.matches(keyMapper)) v.add(entry.getValue()); } // make a String[] final String[] result = new String[v.size()]; for (int i = 0; i < v.size(); i++) result[i] = v.get(i); return result; } // put all elements of another hashtable into the own table public void putAll(final serverObjects add) { for (Map.Entry entry: add.entrySet()) { put(entry.getKey(), entry.getValue()); } } // convenience methods for storing and loading to a file system public void store(final File f) throws IOException { BufferedOutputStream fos = null; try { fos = new BufferedOutputStream(new FileOutputStream(f)); String key, value; for (Map.Entry entry: entrySet()) { key = entry.getKey(); value = entry.getValue().replaceAll("\n", "\\\\n"); fos.write((key + "=" + value + "\r\n").getBytes()); } } finally { if (fos != null) { try { fos.flush(); fos.close(); } catch (final Exception e){} } } } /** * Defines the localization state of this object. * Currently it is used for numbers added with the putNum() methods only. * @param loc if true store numbers in a localized format, otherwise * use a default english locale without grouping. * @see Formatter#setLocale(String) */ public void setLocalized(final boolean loc) { this.localized = loc; } public Object clone() { return super.clone(); } }