// indexRWIEntryOld.java
// (C) 2006 by Michael Peter Christen; mc@anomic.de, Frankfurt a. M., Germany
// first published 17.11.2006 on http://www.anomic.de
//
// This is a part of YaCy, a peer-to-peer based web search engine
//
// $LastChangedDate: 2006-04-02 22:40:07 +0200 (So, 02 Apr 2006) $
// $LastChangedRevision: 1986 $
// $LastChangedBy: orbiter $
//
// LICENSE
//
// 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
package de.anomic.index ;
import de.anomic.kelondro.kelondroBase64Order ;
import de.anomic.kelondro.kelondroBitfield ;
import de.anomic.kelondro.kelondroColumn ;
import de.anomic.kelondro.kelondroRow ;
import de.anomic.kelondro.kelondroRow.Entry ;
import de.anomic.plasma.plasmaSearchQuery ;
import de.anomic.plasma.plasmaWordIndex ;
import de.anomic.yacy.yacySeedDB ;
public class indexRWIEntryOld implements Cloneable , indexRWIEntry {
// this object stores attributes to URL references inside RWI collections
public static kelondroRow urlEntryRow = new kelondroRow ( new kelondroColumn [ ] {
new kelondroColumn ( "h" , kelondroColumn . celltype_string , kelondroColumn . encoder_bytes , yacySeedDB . commonHashLength , "urlhash" ) ,
new kelondroColumn ( "q" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 3 , "quality" ) ,
new kelondroColumn ( "a" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 3 , "lastModified" ) ,
new kelondroColumn ( "c" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 2 , "hitcount" ) ,
new kelondroColumn ( "l" , kelondroColumn . celltype_string , kelondroColumn . encoder_bytes , 2 , "language" ) ,
new kelondroColumn ( "d" , kelondroColumn . celltype_binary , kelondroColumn . encoder_bytes , 1 , "doctype" ) ,
new kelondroColumn ( "f" , kelondroColumn . celltype_binary , kelondroColumn . encoder_bytes , 1 , "localflag" ) ,
new kelondroColumn ( "t" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 2 , "posintext" ) ,
new kelondroColumn ( "r" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 2 , "posinphrase" ) ,
new kelondroColumn ( "o" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 2 , "posofphrase" ) ,
new kelondroColumn ( "i" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 2 , "worddistance" ) ,
new kelondroColumn ( "w" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 2 , "wordcount" ) ,
new kelondroColumn ( "p" , kelondroColumn . celltype_cardinal , kelondroColumn . encoder_b64e , 2 , "phrasecount" )
} ,
kelondroBase64Order . enhancedCoder ,
0 ) ;
private static final int col_urlhash = 0 ;
private static final int col_quality = 1 ;
private static final int col_lastModified = 2 ;
private static final int col_hitcount = 3 ;
private static final int col_language = 4 ;
private static final int col_doctype = 5 ;
//private static final int col_localflag = 6;
private static final int col_posintext = 7 ;
private static final int col_posinphrase = 8 ;
private static final int col_posofphrase = 9 ;
private static final int col_worddistance = 10 ;
private static final int col_wordcount = 11 ;
private static final int col_phrasecount = 12 ;
private kelondroRow . Entry entry ;
/ *
public indexRWIEntryOld ( String urlHash ,
int urlLength , // byte-length of complete URL
int urlComps , // number of path components
int titleLength , // length of description/length (longer are better?)
int hitcount , //*how often appears this word in the text
int wordcount , //*total number of words
int phrasecount , //*total number of phrases
int posintext , //*position of word in all words
int posinphrase , //*position of word in its phrase
int posofphrase , //*number of the phrase where word appears
int worddistance , //*word distance; this is 0 by default, and set to the difference of posintext from two indexes if these are combined (simultanous search). If stored, this shows that the result was obtained by remote search
int sizeOfPage , // # of bytes of the page
long lastmodified , //*last-modified time of the document where word appears
long updatetime , // update time; this is needed to compute a TTL for the word, so it can be removed easily if the TTL is short
String language , //*(guessed) language of document
char doctype , //*type of document
int outlinksSame , // outlinks to same domain
int outlinksOther , // outlinks to other domain
boolean local //*flag shows that this index was generated locally; othervise its from a remote peer
) {
// more needed attributes:
// - boolean: appearance attributes: title, appears in header, anchor-descr, image-tag, hervorhebungen, meta-tags, word in link etc
// - boolean: URL attributes
assert ( urlHash ! = null ) ;
assert ( urlHash . length ( ) = = 12 ) : "urlhash = " + urlHash ;
if ( ( language = = null ) | | ( language . length ( ) ! = urlEntryRow . width ( col_language ) ) ) language = "uk" ;
this . entry = urlEntryRow . newEntry ( ) ;
this . entry . setCol ( col_urlhash , urlHash , null ) ;
this . entry . setCol ( col_quality , 0 ) ;
this . entry . setCol ( col_lastModified , lastmodified ) ;
this . entry . setCol ( col_hitcount , hitcount ) ;
this . entry . setCol ( col_language , language , null ) ;
this . entry . setCol ( col_doctype , new byte [ ] { ( byte ) doctype } ) ;
this . entry . setCol ( col_localflag , ( byte ) ( ( local ) ? plasmaURL . LT_LOCAL : plasmaURL . LT_GLOBAL ) ) ;
this . entry . setCol ( col_posintext , posintext ) ;
this . entry . setCol ( col_posinphrase , posinphrase ) ;
this . entry . setCol ( col_posofphrase , posofphrase ) ;
this . entry . setCol ( col_worddistance , worddistance ) ;
this . entry . setCol ( col_wordcount , wordcount ) ;
this . entry . setCol ( col_phrasecount , phrasecount ) ;
//System.out.println("DEBUG-NEWENTRY " + toPropertyForm());
}
* /
public indexRWIEntryOld ( String urlHash , String code ) {
// the code is the external form of the row minus the leading urlHash entry
this . entry = urlEntryRow . newEntry ( ( urlHash + code ) . getBytes ( ) ) ;
}
public indexRWIEntryOld ( String external ) {
this . entry = urlEntryRow . newEntry ( external , false ) ;
}
public indexRWIEntryOld ( byte [ ] row ) {
this . entry = urlEntryRow . newEntry ( row ) ;
}
public indexRWIEntryOld ( kelondroRow . Entry rentry ) {
// FIXME: see if cloning is necessary
this . entry = rentry ;
}
public Object clone ( ) {
byte [ ] b = new byte [ urlEntryRow . objectsize ( ) ] ;
System . arraycopy ( entry . bytes ( ) , 0 , b , 0 , urlEntryRow . objectsize ( ) ) ;
return new indexRWIEntryOld ( b ) ;
}
public String toPropertyForm ( ) {
return entry . toPropertyForm ( true , false , false ) ;
}
public Entry toKelondroEntry ( ) {
return this . entry ;
}
public String urlHash ( ) {
return this . entry . getColString ( col_urlhash , null ) ;
}
public int quality ( ) {
return ( int ) this . entry . getColLong ( col_quality ) ;
}
public char doctype ( ) {
return ( char ) this . entry . getColByte ( col_doctype ) ;
}
public int virtualAge ( ) {
return plasmaWordIndex . microDateDays ( lastModified ( ) ) ;
}
public long lastModified ( ) {
return ( int ) this . entry . getColLong ( col_lastModified ) ;
}
public int hitcount ( ) {
return ( int ) this . entry . getColLong ( col_hitcount ) ;
}
public int posintext ( ) {
return ( int ) this . entry . getColLong ( col_posintext ) ;
}
public int posinphrase ( ) {
return ( int ) this . entry . getColLong ( col_posinphrase ) ;
}
public int posofphrase ( ) {
return ( int ) this . entry . getColLong ( col_posofphrase ) ;
}
public int wordsintext ( ) {
return ( int ) this . entry . getColLong ( col_wordcount ) ;
}
public int phrasesintext ( ) {
return ( int ) this . entry . getColLong ( col_phrasecount ) ;
}
public String getLanguage ( ) {
return this . entry . getColString ( col_language , null ) ;
}
public char getType ( ) {
return ( char ) this . entry . getColByte ( col_doctype ) ;
}
public kelondroBitfield flags ( ) {
return plasmaSearchQuery . empty_constraint ;
}
public static indexRWIEntryOld combineDistance ( indexRWIEntryOld ie1 , indexRWIEntry ie2 ) {
// returns a modified entry of the first argument
ie1 . entry . setCol ( col_worddistance , ie1 . worddistance ( ) + ie2 . worddistance ( ) + Math . abs ( ie1 . posintext ( ) - ie2 . posintext ( ) ) ) ;
ie1 . entry . setCol ( col_posintext , Math . min ( ie1 . posintext ( ) , ie2 . posintext ( ) ) ) ;
ie1 . entry . setCol ( col_posinphrase , ( ie1 . posofphrase ( ) = = ie2 . posofphrase ( ) ) ? ie1 . posofphrase ( ) : 0 /*unknown*/ ) ;
ie1 . entry . setCol ( col_posofphrase , Math . min ( ie1 . posofphrase ( ) , ie2 . posofphrase ( ) ) ) ;
ie1 . entry . setCol ( col_wordcount , ( ie1 . wordsintext ( ) + ie2 . wordsintext ( ) ) / 2 ) ;
return ie1 ;
}
public void combineDistance ( indexRWIEntry oe ) {
combineDistance ( this , oe ) ;
}
public int worddistance ( ) {
return ( int ) this . entry . getColLong ( col_worddistance ) ;
}
public static final void min ( indexRWIEntryOld t , indexRWIEntry other ) {
if ( t . hitcount ( ) > other . hitcount ( ) ) t . entry . setCol ( col_hitcount , other . hitcount ( ) ) ;
if ( t . wordsintext ( ) > other . wordsintext ( ) ) t . entry . setCol ( col_wordcount , other . wordsintext ( ) ) ;
if ( t . phrasesintext ( ) > other . phrasesintext ( ) ) t . entry . setCol ( col_phrasecount , other . phrasesintext ( ) ) ;
if ( t . posintext ( ) > other . posintext ( ) ) t . entry . setCol ( col_posintext , other . posintext ( ) ) ;
if ( t . posinphrase ( ) > other . posinphrase ( ) ) t . entry . setCol ( col_posinphrase , other . posinphrase ( ) ) ;
if ( t . posofphrase ( ) > other . posofphrase ( ) ) t . entry . setCol ( col_posofphrase , other . posofphrase ( ) ) ;
if ( t . worddistance ( ) > other . worddistance ( ) ) t . entry . setCol ( col_worddistance , other . worddistance ( ) ) ;
if ( t . lastModified ( ) > other . lastModified ( ) ) t . entry . setCol ( col_lastModified , other . lastModified ( ) ) ;
if ( t . quality ( ) > other . quality ( ) ) t . entry . setCol ( col_quality , other . quality ( ) ) ;
}
public static final void max ( indexRWIEntryOld t , indexRWIEntry other ) {
if ( t . hitcount ( ) < other . hitcount ( ) ) t . entry . setCol ( col_hitcount , other . hitcount ( ) ) ;
if ( t . wordsintext ( ) < other . wordsintext ( ) ) t . entry . setCol ( col_wordcount , other . wordsintext ( ) ) ;
if ( t . phrasesintext ( ) < other . phrasesintext ( ) ) t . entry . setCol ( col_phrasecount , other . phrasesintext ( ) ) ;
if ( t . posintext ( ) < other . posintext ( ) ) t . entry . setCol ( col_posintext , other . posintext ( ) ) ;
if ( t . posinphrase ( ) < other . posinphrase ( ) ) t . entry . setCol ( col_posinphrase , other . posinphrase ( ) ) ;
if ( t . posofphrase ( ) < other . posofphrase ( ) ) t . entry . setCol ( col_posofphrase , other . posofphrase ( ) ) ;
if ( t . worddistance ( ) < other . worddistance ( ) ) t . entry . setCol ( col_worddistance , other . worddistance ( ) ) ;
if ( t . lastModified ( ) < other . lastModified ( ) ) t . entry . setCol ( col_lastModified , other . lastModified ( ) ) ;
if ( t . quality ( ) < other . quality ( ) ) t . entry . setCol ( col_quality , other . quality ( ) ) ;
}
public void min ( indexRWIEntry other ) {
min ( this , other ) ;
}
public void max ( indexRWIEntry other ) {
max ( this , other ) ;
}
static void normalize ( indexRWIEntryOld t , indexRWIEntry min , indexRWIEntry max ) {
assert ( t . urlHash ( ) . length ( ) = = 12 ) : "turlhash = " + t . urlHash ( ) ;
assert ( min . urlHash ( ) . length ( ) = = 12 ) : "minurlhash = " + min . urlHash ( ) ;
assert ( max . urlHash ( ) . length ( ) = = 12 ) : "maxurlhash = " + max . urlHash ( ) ;
if ( 1 + max . worddistance ( ) - min . worddistance ( ) = = 0 ) System . out . println ( "min = " + min . toPropertyForm ( ) + "\nmax=" + max . toPropertyForm ( ) ) ;
//System.out.println("Normalize:\nentry = " + t.toPropertyForm(true));
//System.out.println("min = " + min.toPropertyForm(true));
//System.out.println("max = " + max.toPropertyForm(true));
t . entry . setCol ( col_hitcount , ( t . hitcount ( ) = = 0 ) ? 0 : 1 + 255 * ( t . hitcount ( ) - min . hitcount ( ) ) / ( 1 + max . hitcount ( ) - min . hitcount ( ) ) ) ;
t . entry . setCol ( col_wordcount , ( t . wordsintext ( ) = = 0 ) ? 0 : 1 + 255 * ( t . wordsintext ( ) - min . wordsintext ( ) ) / ( 1 + max . wordsintext ( ) - min . wordsintext ( ) ) ) ;
t . entry . setCol ( col_phrasecount , ( t . phrasesintext ( ) = = 0 ) ? 0 : 1 + 255 * ( t . phrasesintext ( ) - min . phrasesintext ( ) ) / ( 1 + max . phrasesintext ( ) - min . phrasesintext ( ) ) ) ;
t . entry . setCol ( col_posintext , ( t . posintext ( ) = = 0 ) ? 0 : 1 + 255 * ( t . posintext ( ) - min . posintext ( ) ) / ( 1 + max . posintext ( ) - min . posintext ( ) ) ) ;
t . entry . setCol ( col_posinphrase , ( t . posinphrase ( ) = = 0 ) ? 0 : 1 + 255 * ( t . posinphrase ( ) - min . posinphrase ( ) ) / ( 1 + max . posinphrase ( ) - min . posinphrase ( ) ) ) ;
t . entry . setCol ( col_posofphrase , ( t . posofphrase ( ) = = 0 ) ? 0 : 1 + 255 * ( t . posofphrase ( ) - min . posofphrase ( ) ) / ( 1 + max . posofphrase ( ) - min . posofphrase ( ) ) ) ;
t . entry . setCol ( col_worddistance , ( t . worddistance ( ) = = 0 ) ? 0 : 1 + 255 * ( t . worddistance ( ) - min . worddistance ( ) ) / ( 1 + max . worddistance ( ) - min . worddistance ( ) ) ) ; // FIXME: hier gibts ein division by zero, was nur sein kann wenn die Normalisierung nicht geklappt hat.
t . entry . setCol ( col_lastModified , ( t . lastModified ( ) = = 0 ) ? 0 : 1 + 255 * ( t . lastModified ( ) - min . lastModified ( ) ) / ( 1 + max . lastModified ( ) - min . lastModified ( ) ) ) ;
t . entry . setCol ( col_quality , ( t . quality ( ) = = 0 ) ? 0 : 1 + 255 * ( t . quality ( ) - min . quality ( ) ) / ( 1 + max . quality ( ) - min . quality ( ) ) ) ;
//System.out.println("out = " + t.toPropertyForm(true));
}
public void normalize ( indexRWIEntry min , indexRWIEntry max ) {
normalize ( this , min , max ) ;
}
public indexRWIEntry generateNormalized ( indexRWIEntry min , indexRWIEntry max ) {
assert ( this . urlHash ( ) . length ( ) = = 12 ) : "this.urlhash = " + this . urlHash ( ) ;
indexRWIEntryOld e = ( indexRWIEntryOld ) this . clone ( ) ;
e . normalize ( min , max ) ;
return e ;
}
public boolean isNewer ( indexRWIEntry other ) {
if ( other = = null ) return true ;
if ( this . lastModified ( ) > other . lastModified ( ) ) return true ;
if ( this . lastModified ( ) = = other . lastModified ( ) ) {
if ( this . quality ( ) > other . quality ( ) ) return true ;
}
return false ;
}
public boolean isOlder ( indexRWIEntry other ) {
if ( other = = null ) return false ;
if ( this . lastModified ( ) < other . lastModified ( ) ) return true ;
if ( this . lastModified ( ) = = other . lastModified ( ) ) {
if ( this . quality ( ) < other . quality ( ) ) return true ;
}
return false ;
}
public int llocal ( ) {
return 0 ;
}
public int lother ( ) {
return 0 ;
}
public int urlcomps ( ) {
return 0 ;
}
public int urllength ( ) {
return 0 ;
}
public int wordsintitle ( ) {
return 0 ;
}
}