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Dictionary/src/java/org/thdl/lex/util/DictionaryImporter.java

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package org.thdl.lex.util;
import java.net.*;
import java.io.*;
import java.util.*;
import org.thdl.lex.*;
import org.thdl.lex.component.*;
import org.thdl.tib.scanner.Manipulate;
import java.sql.*;
public class DictionaryImporter
{
private static PrintWriter out;
private static BufferedReader in;
private static String delimiter;
private static int delimiterType;
private static Integer creator;
private static String note;
private static Integer proj;
private static String publicCons;
private static Integer label;
private static Statement sqlStatement;
private static Connection conn;
public final static int delimiterGeneric=0;
public final static int delimiterAcip=1;
public final static int delimiterDash=2;
//helpers
public void doImport() throws Exception
{
String entrada, s1, s2, alternateWords[];
int marker, marker2, len, currentLine=1;
//long start = System.currentTimeMillis();
while ((entrada = in.readLine())!=null)
{
entrada = entrada.trim();
if (!entrada.equals(""))
{
switch(delimiterType)
{
/* this is needed to make sure that the dash used in reverse vowels with extended
wylie is not confused with the dash that separates definiendum and definition. */
case delimiterDash:
marker=entrada.indexOf('-');
len = entrada.length();
while (marker>=0 && marker<len-1 && Manipulate.isVowel(entrada.charAt(marker+1)) && !Character.isWhitespace(entrada.charAt(marker-1)))
{
marker = entrada.indexOf('-', marker+1);
}
break;
default:
marker = entrada.indexOf(delimiter);
}
if (marker<0)
{
System.out.println("Error loading line " + currentLine);
System.out.println(entrada);
}
else
{
s1 = Manipulate.deleteQuotes(entrada.substring(0,marker).trim());
s2 = Manipulate.deleteQuotes(entrada.substring(marker+delimiter.length()).trim());
if (!s2.equals(""))
{
// check if there are multiple entries for a single definition
marker2 = s1.indexOf(';');
if (marker2>0)
{
alternateWords = s1.split(";");
for (marker2=0; marker2<alternateWords.length; marker2++)
{
addRecord(alternateWords[marker2],s2);
}
}
addRecord (s1, s2);
}
}
}
currentLine++;
}
//System.out.println( "Duration: " + ( System.currentTimeMillis() - start )/60000 + " minutes");
System.out.flush();
if (out!=null) out.flush();
if (sqlStatement!=null) sqlStatement.close();
if (conn!=null) conn.close();
}
public void addRecordManually(String term, String definition) throws Exception
{
Boolean result;
ResultSet set;
int metaID, metaIDTrans, prec;
String currentDef, insertMeta = "INSERT INTO meta (createdby, modifiedby, createdbyprojsub, modifiedbyprojsub, createdon, modifiedon, source, language, dialect, script, note) VALUES (" + creator.toString() + ", " + creator.toString() + ", " + proj.toString() + ", " + proj.toString() + ", NOW(), NOW(), 0, 0, 0, 1, \"" + note + "\")";
definition = Manipulate.replace(definition, "\\", "@@@@");
definition = Manipulate.replace(definition, "@@@@", "\\\\");
definition = Manipulate.replace(definition, "\"", "@@@@");
definition = Manipulate.replace(definition, "@@@@", "\\\"");
// displaying for debugging purposes only
// System.out.println(term);
// Check to see if term is already there
sqlStatement.execute("SELECT metaid FROM terms WHERE term = \"" + term + "\"");
set = sqlStatement.getResultSet();
// if it is get its metaID, else add it
if (!set.first())
{
sqlStatement.execute(insertMeta);
sqlStatement.execute("SELECT MAX(metaid) FROM META");
set = sqlStatement.getResultSet();
set.first();
metaID = set.getInt(1);
sqlStatement.execute("INSERT INTO terms (metaid, term) VALUES (" + metaID + ", \"" + term + "\")");
}
else metaID = set.getInt(1);
// See if there is an associated TransitionalData with this term and project
sqlStatement.execute("SELECT transitionaldatatext, transitionaldata.metaid FROM transitionaldata, meta where transitionaldata.parentid = " + metaID + " and transitionaldata.metaid = meta.metaid and createdbyprojsub = " + proj.toString());
set = sqlStatement.getResultSet();
// if there is, append the definition if it is different. If not add it.
if (set.first())
{
currentDef = set.getString(1).trim();
currentDef = Manipulate.replace(currentDef, "\\", "@@@@");
currentDef = Manipulate.replace(currentDef, "@@@@", "\\\\");
currentDef = Manipulate.replace(currentDef, "\"", "@@@@");
currentDef = Manipulate.replace(currentDef, "@@@@", "\\\"");
if (currentDef.indexOf(definition)<0)
{
if (!currentDef.equals("")) definition = currentDef + ". " + definition;
metaIDTrans = set.getInt(2);
sqlStatement.execute("UPDATE transitionaldata SET transitionaldatatext = \"" + definition + "\" WHERE metaid = " + metaIDTrans);
}
}
else
{
sqlStatement.execute(insertMeta);
sqlStatement.execute("SELECT MAX(metaid) FROM META");
set = sqlStatement.getResultSet();
set.first();
metaIDTrans = set.getInt(1);
sqlStatement.execute("SELECT precedence FROM transitionaldata WHERE parentid = " + metaID + " ORDER BY precedence DESC");
set = sqlStatement.getResultSet();
if (set.first()) prec = set.getInt(1)+1;
else prec = 0;
sqlStatement.execute("INSERT INTO transitionaldata (metaid, parentid, precedence, transitionaldatalabel, forpublicconsumption, transitionaldatatext) VALUES ("+ metaIDTrans +", " + metaID +", " + prec + ", " + label + ", \"" + publicCons + "\", \"" + definition + "\")");
}
}
private void addRecord(String term, String definition) throws Exception
{
term = Manipulate.replace(term, " ", " ");
if (out!=null) out.println(term + " - " + definition);
else if (sqlStatement!=null) addRecordManually(term, definition);
else addRecordViaHibernate(term, definition);
}
/** Main class to map the term and its definition to the Lex Component
object model. Works but painfully slow! */
public void addRecordViaHibernate(String term, String definition) throws Exception
{
LinkedList ll;
ListIterator li;
ITerm lexTerm;
TransitionalData trans=null;
boolean found, newTerm = false;
String existingDef;
// displaying for debugging purposes only
// System.out.println(term);
//check to see if the term already exists
lexTerm = LexComponentRepository.loadTermByTerm( term );
found = false;
//if it doesn't create a new term.
if ( null == lexTerm )
{
// System.out.println("New term");
lexTerm = new Term();
lexTerm.setTerm( term );
lexTerm.setMeta( defaultMeta() );
//save the Term to the database. This step is necessary here to generate a unique id
LexComponentRepository.save( lexTerm );
newTerm = true;
}
else
{
// System.out.println("Old term");
li = lexTerm.getTransitionalData().listIterator();
while (li.hasNext())
{
trans = (TransitionalData) li.next();
if (trans.getMeta().getCreatedByProjSub().equals(proj))
{
found = true;
break;
}
}
newTerm = false;
}
//OLD CODE
/* TransitionalData trans = getTransData( lexTerm.getId() );
trans.setTransitionalDataLabel( new Short( "1" ) );
trans.setForPublicConsumption( "true" );
trans.setTermId( termParent.getId() );
String newText = null;
if (null != trans.getTransitionalDataText() )
newText = trans.getTransitionalDataText() + ". " + def.toString().trim();
else
newText = def.toString().trim();
trans.setTransitionalDataText( newText );
trans.save();
out.print( termParent.getTerm() + " ");
int subTarget = 30;
if ( trans.getTransitionalDataText().length() < 40 )
subTarget = trans.getTransitionalDataText().length();
out.print( trans.getTransitionalDataText().substring( 0, subTarget ) ); */
//NEW CODE
// check if there is already a defition for this project
if (found)
{
existingDef = trans.getTransitionalDataText().trim();
if (existingDef.equals("")) found = false;
else if (existingDef.indexOf(definition)<0)
{
definition = existingDef + ". " + definition;
found = false;
}
}
else
{
// System.out.println("New definition");
trans = new TransitionalData( );
trans.setMeta( defaultMeta() );
trans.setTransitionalDataLabel(label);
trans.setParentId( lexTerm.getMetaId() );
trans.setForPublicConsumption(publicCons);
if (newTerm)
{
ll = new LinkedList();
ll.add(trans);
lexTerm.setTransitionalData(ll);
}
else lexTerm.getTransitionalData().add( trans );
}
if (!found)
{
trans.setTransitionalDataText(definition);
//save the Term to the database.
LexComponentRepository.save( lexTerm );
}
}
public Meta defaultMeta() {
//use the file src/sql/import-updates.sql to add new metadata for use in this method.
Meta meta = new Meta();
meta.setCreatedBy(creator);
meta.setModifiedBy(creator);
meta.setCreatedByProjSub(proj);
meta.setModifiedByProjSub(proj);
meta.setSource( new Integer( 0 ) );
// meta.setTranslationOf( new Integer( 0 ) );
meta.setLanguage( new Integer( "0" ) );
meta.setDialect( new Integer( "0" ) );
meta.setScript( new Integer( "1" ) );
meta.setNote(note);
return meta;
}
/** Used only if the database is being accessed manually instead of through Hibernate */
private static Statement getStatement()
{
ResourceBundle rb = ResourceBundle.getBundle("dictionary-importer");
Statement s = null;
// Loading driver
try {
// The newInstance() call is a work around for some
// broken Java implementations
Class.forName(rb.getString("dictionaryimporter.driverclassname")).newInstance();
} catch (Exception ex) {
System.out.println("Mysql driver couldn't be loaded!");
System.exit(0);
}
// Connecting to database
try {
conn = DriverManager.getConnection(rb.getString("dictionaryimporter.url"));
s = conn.createStatement();
// Do something with the Connection
} catch (Exception ex) {
// handle any errors
System.out.println("Could not connect to database!");
System.exit(0);
}
return s;
}
public DictionaryImporter()
{
}
public static void main( String[] args ) throws Exception
{
String format = null;
InputStream is;
int argNum = args.length, currentArg=0;
String option;
boolean file=false;
out = null;
delimiterType = delimiterDash;
delimiter="-";
creator= new Integer(80);
proj = new Integer(18);
note = "This entry comes from The Rangjung Yeshe Tibetan-English Dictionary of Buddhist Culture (www.rangjung.com).";
publicCons = "true";
label = new Integer(6);
sqlStatement = null;
conn = null;
if (argNum<=currentArg)
{
System.out.println("Syntax: DictionaryImporter [-manual] [-format format] [-tab | -delim delimiter] " +
"[-creator creator-id] [-proj project-id] [-label label] [-note note] " +
"[-pub-cons public-consumption-marker] [input-file] [output-error-file]");
return;
}
while (args[currentArg].charAt(0)=='-')
{
option = args[currentArg].substring(1);
currentArg++;
if (option.equals("manual"))
{
sqlStatement = getStatement();
} else if (option.equals("format"))
{
if (argNum<=currentArg)
{
System.out.println("Syntax error: format expected.");
return;
}
format = args[currentArg];
currentArg++;
} else if (option.equals("tab"))
{
delimiter = "\t";
delimiterType = delimiterGeneric;
} else if (option.equals("delim"))
{
if (argNum<=currentArg)
{
System.out.println("Syntax error: delimiter expected.");
return;
}
delimiter = args[currentArg];
currentArg++;
} else if (option.equals("creator"))
{
if (argNum<=currentArg)
{
System.out.println("Syntax error: creator expected.");
return;
}
creator = new Integer(args[currentArg]);
currentArg++;
} else if (option.equals("proj"))
{
if (argNum<=currentArg)
{
System.out.println("Syntax error: project expected.");
return;
}
proj = new Integer(args[currentArg]);
currentArg++;
} else if (option.equals("label"))
{
if (argNum<=currentArg)
{
System.out.println("Syntax error: label expected.");
return;
}
label = new Integer(args[currentArg]);
currentArg++;
} else if (option.equals("note"))
{
if (argNum<=currentArg)
{
System.out.println("Syntax error: note expected.");
return;
}
note = args[currentArg];
currentArg++;
} else if (option.equals("pub-cons"))
{
if (argNum<=currentArg)
{
System.out.println("Syntax error: public consumption description expected.");
return;
}
publicCons = args[currentArg];
currentArg++;
}
}
switch (args.length-currentArg)
{
case 0: out = new PrintWriter(System.out);
if (format != null)
{
System.out.println("Syntax error. Input file expected.");
return;
}
break;
case 1: file = true;
break;
default:
if (format != null) out = new PrintWriter(new OutputStreamWriter(new FileOutputStream(args[currentArg + 1]), format));
else out = new PrintWriter(new FileOutputStream(args[currentArg + 1]));
file = true;
}
if (file)
{
if (args[currentArg].indexOf("http://") >= 0)
is = new BufferedInputStream((new URL(args[currentArg])).openStream());
else
is = new FileInputStream(args[currentArg]);
if (format==null)
in = new BufferedReader(new InputStreamReader(is));
else
in = new BufferedReader(new InputStreamReader(is, format));
}
new DictionaryImporter().doImport();
}
}
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