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433 lines
12 KiB
433 lines
12 KiB
/***************************************************************************
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kadmosocr.cpp - Kadmos cpp interface
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-------------------
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begin : Fri Jun 30 2000
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(c) 2002 re Recognition AG Hafenstrasse 50b CH-8280 Kreuzlingen
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Switzerland Phone: +41 (0)71 6780000 Fax: +41 (0)71 6780099
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Website: www.reRecognition.com E-mail: info@reRecognition.com
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Author: Tamas Nagy (nagy@rerecognition.com)
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Klaas Freitag <freitag@suse.de>
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Heike Stuerzenhofecker <heike@freisturz.de>
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***************************************************************************/
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/***************************************************************************
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* *
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* This file may be distributed and/or modified under the terms of the *
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* GNU General Public License version 2 as published by the Free Software *
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* Foundation and appearing in the file COPYING included in the *
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* packaging of this file. *
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*
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* As a special exception, permission is given to link this program *
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* with any version of the KADMOS ocr/icr engine of reRecognition GmbH, *
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* Kreuzlingen and distribute the resulting executable without *
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* including the source code for KADMOS in the source distribution. *
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*
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* As a special exception, permission is given to link this program *
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* with any edition of Qt, and distribute the resulting executable, *
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* without including the source code for Qt in the source distribution. *
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* *
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***************************************************************************/
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/* Kadmos CPP object oriented interface */
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#include <tqimage.h>
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#include <tqpainter.h>
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#include <tqstring.h>
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#include <tqrect.h>
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#include <tqstringlist.h>
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#include <assert.h>
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#include <string.h>
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#include <stdlib.h>
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#include <memory.h>
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#include <kdebug.h>
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#include "kadmosocr.h"
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#include "ocrword.h"
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#ifdef HAVE_KADMOS
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using namespace Kadmos;
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/* -------------------- CRep -------------------- */
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CRep::CRep()
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:TQObject()
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{
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memset(&m_RepData, 0, sizeof(m_RepData));
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m_Error = RE_SUCCESS;
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m_undetectChar = TQChar('_');
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}
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CRep::~CRep()
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{
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}
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RelGraph* CRep::getGraphKnode(int line, int offset )
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{
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Kadmos::RepResult *res = getRepResult(line);
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if( res )
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return ( &(getRepResult(line)->rel_graph[0])+offset);
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else
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return 0L;
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}
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RepResult* CRep::getRepResult(int line)
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{
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if( line<0 || line >= m_RepData.rep_result_len ) return 0L;
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return &(m_RepData.rep_result[line]);
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}
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RelResult* CRep::getRelResult(int line, RelGraph* graph, int alternative)
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{
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if( ! ( graph && getRepResult(line))) return 0L;
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int offset = graph->result_number[alternative];
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return( &(getRepResult(line)->rel_result[0]) + offset );
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}
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KADMOS_ERROR CRep::Init(const char* ClassifierFilename)
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{
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/* prepare RepData structure */
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m_RepData.init.rel_grid_maxlen = GRID_MAX_LEN;
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m_RepData.init.rel_graph_maxlen = GRAPH_MAX_LEN;
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m_RepData.init.rel_result_maxlen = CHAR_MAX_LEN;
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m_RepData.init.rep_memory_size = LINE_MAX_LEN * sizeof(RepResult) +
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(long)LINE_MAX_LEN * CHAR_MAX_LEN * (sizeof(RelGraph)+
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sizeof(RelResult));
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m_RepData.init.rep_memory = malloc( m_RepData.init.rep_memory_size );
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if (!m_RepData.init.rep_memory) {
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CheckError();
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return m_Error;
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}
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strcpy(m_RepData.init.version, INC_KADMOS);
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m_Error = rep_init(&m_RepData, (char*)ClassifierFilename);
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CheckError();
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return m_Error;
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}
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void CRep::run() // KADMOS_ERROR CRep::Recognize()
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{
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kdDebug(28000) << "ooo Locked and ocr!" << endl;
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m_Error = rep_do(&m_RepData);
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CheckError();
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}
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KADMOS_ERROR CRep::End()
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{
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m_Error = rep_end(&m_RepData);
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CheckError();
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return m_Error;
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}
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int CRep::GetMaxLine()
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{
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return m_RepData.rep_result_len;
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}
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const char* CRep::RepTextLine(int nLine, unsigned char RejectLevel, int RejectChar, long Format)
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{
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m_Error = rep_textline(&m_RepData, nLine, m_Line,
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2*CHAR_MAX_LEN, RejectLevel, RejectChar, Format);
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CheckError();
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return m_Line;
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}
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/**
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* This method handles the given line. It takes repRes and goes through the
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* kadmos result tree structures recursivly.
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*/
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ocrWordList CRep::getLineWords( int line )
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{
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ocrWordList repWords;
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bool ok = true;
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Kadmos::RepResult *repRes = getRepResult(line);
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if( ! repRes )
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{
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kdDebug(28000) << "repRes-Pointer is null" << endl;
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ok = false;
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}
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if( ok )
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{
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int nextKnode=0;
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do
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{
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TQString resultWord;
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TQRect boundingRect;
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int newNextKnode = nextBestWord( line, nextKnode, resultWord, boundingRect );
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boundingRect.moveBy( repRes->left, repRes->top );
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ocrWord newWord;
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newWord = resultWord;
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newWord.setKnode(nextKnode);
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newWord.setLine(line);
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newWord.setRect(boundingRect);
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repWords.push_back(newWord);
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/* set nextKnode to the next Knode */
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nextKnode = newNextKnode;
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// Alternativen:
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// partStrings( line, nextKnode, TQString()); // fills m_parts - list with alternative words
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// nextKnode = newNextKnode;
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// kdDebug(28000) << "NextKnodeWord: " << resultWord << endl;
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}
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while( nextKnode > 0 );
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}
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return repWords;
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}
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/* This fills theWord with the next best word and returns the
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* next knode or 0 if there is no next node
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*/
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int CRep::nextBestWord( int line, int knode, TQString& theWord, TQRect& brect )
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{
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Kadmos::RelGraph *relg = getGraphKnode( line, knode );
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// kdDebug(28000) << "GraphKnode is " << knode << endl;
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int nextKnode = knode;
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while( relg )
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{
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Kadmos::RelResult *relr = getRelResult( line, relg, 0 ); // best alternative
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if( relr )
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{
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// kdDebug(28000) << "Leading Blanks: " << relg->leading_blanks <<
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// " und Knode " << knode << endl;
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char c = relr->rec_char[0][0];
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TQChar newChar = c;
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if( c == 0 )
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{
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kdDebug(28000) << "Undetected char found !" << endl;
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newChar = m_undetectChar;
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}
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if ( (nextKnode != knode) && (relg->leading_blanks > 0))
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{
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/* this means the word ends here. */
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// kdDebug(28000) << "----" << theWord << endl;
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relg = 0L; /* Leave the loop. */
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}
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else
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{
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/* append the character */
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theWord.append(newChar);
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/* save the bounding rect */
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// kdDebug(28000) << "LEFT: " << relr->left << " TOP: " << relr->top << endl;
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TQRect r( relr->left, relr->top, relr->width, relr->height );
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if( brect.isNull() )
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{
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brect = r;
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}
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else
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{
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brect = brect.unite( r );
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}
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/* next knode */
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if( relg->next[0] > 0 )
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{
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nextKnode = relg->next[0];
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relg = getGraphKnode( line, nextKnode );
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}
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else
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{
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/* end of the line */
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nextKnode = 0;
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relg = 0L;
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}
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}
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}
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}
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return( nextKnode );
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}
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void CRep::partStrings( int line, int graphKnode, TQString soFar )
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{
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/* The following knodes after a word break */
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Kadmos::RelGraph *relg = getGraphKnode( line, graphKnode );
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// kdDebug(28000) << "GraphKnode is " << graphKnode << endl;
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TQString theWord="";
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for( int resNo=0; resNo < SEG_ALT; resNo++ )
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{
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// kdDebug(28000) << "Alternative " << resNo << " is " << relg->result_number[resNo] << endl;
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if( relg->result_number[resNo] == -1 )
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{
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/* This means that there is no other alternative. Go out here. */
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break;
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}
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Kadmos::RelResult *relr = getRelResult( line, relg, resNo );
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theWord = TQChar(relr->rec_char[0][0]);
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if ( !soFar.isEmpty() && relg->leading_blanks )
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{
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/* this means the previous words end. */
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// TODO: This forgets the alternatives of _this_ first character of the new word.
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kdDebug(28000) << "---- " << soFar << endl;
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m_parts << soFar;
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break;
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}
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else
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{
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/* make a TQString from this single char and append it. */
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soFar += theWord;
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}
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if( relg->next[resNo] > 0 )
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{
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/* There is a follower to this knode. Combine the result list from a recursive call
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* to this function with the follower knode.
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*/
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partStrings( line, relg->next[resNo], soFar );
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}
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else
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{
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/* There is no follower */
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kdDebug(28000) << "No followers - theWord is " << soFar << endl;
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m_parts<<soFar;
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break;
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}
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}
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}
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void CRep::drawCharBox( TQPixmap *pix, const TQRect& r )
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{
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drawBox( pix, r, TQColor( Qt::red ));
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}
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void CRep::drawLineBox( TQPixmap* pix, const TQRect& r )
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{
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drawBox( pix, r, TQColor( Qt::blue ));
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}
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void CRep::drawBox( TQPixmap* pix, const TQRect& r, const TQColor& color )
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{
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TQPainter p;
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p.begin(pix);
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p.setPen( color );
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p.drawRect(r);
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}
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KADMOS_ERROR CRep::SetImage( const TQString file )
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{
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ReImageHandle image_handle;
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image_handle = re_readimage(file.latin1(), &m_RepData.image);
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if( ! image_handle )
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{
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kdDebug(28000) << "Can not load input file" << endl;
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}
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CheckError();
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return RE_SUCCESS;
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}
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KADMOS_ERROR CRep::SetImage(TQImage *Image)
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{
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// memcpy(&m_RepData.image, Image.bits(), Image.numBytes());
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if( !Image ) return RE_PARAMETERERROR;
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kdDebug(28000) << "Setting image manually." << endl;
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m_RepData.image.data = (void*)Image->bits();
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m_RepData.image.imgtype = IMGTYPE_PIXELARRAY;
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m_RepData.image.width = Image->width();
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m_RepData.image.height = Image->height();
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m_RepData.image.bitsperpixel = Image->depth();
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m_RepData.image.alignment = 1;
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m_RepData.image.fillorder = FILLORDER_MSB2LSB;
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// color
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if( Image->depth() == 1 || (Image->numColors()==2 && Image->depth() == 8) )
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{
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m_RepData.image.color=COLOR_BINARY;
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kdDebug(28000) << "Setting Binary" << endl;
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} else if( Image->isGrayscale() ) {
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m_RepData.image.color = COLOR_GRAY;
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kdDebug(28000) << "Setting GRAY" << endl;
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} else {
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m_RepData.image.color = COLOR_RGB;
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kdDebug(28000) << "Setting Color RGB" << endl;
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}
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// orientation
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m_RepData.image.orientation = ORIENTATION_TOPLEFT;
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m_RepData.image.photometric = PHOTOMETRIC_MINISWHITE;
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m_RepData.image.resunit = RESUNIT_INCH;
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m_RepData.image.xresolution = 200;
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m_RepData.image.yresolution = 200;
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CheckError();
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return RE_SUCCESS;
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}
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void CRep::SetNoiseReduction(bool bNoiseReduction)
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{
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if (bNoiseReduction) {
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m_RepData.parm.prep |= PREP_AUTO_NOISEREDUCTION;
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}
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else {
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m_RepData.parm.prep &= !PREP_AUTO_NOISEREDUCTION;
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}
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}
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void CRep::SetScaling(bool bScaling)
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{
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if (bScaling) {
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m_RepData.parm.prep |= PREP_SCALING;
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}
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else {
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m_RepData.parm.prep &= !PREP_SCALING;
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}
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}
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void CRep::CheckError()
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{
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if ( kadmosError() )
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{
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kdDebug(28000) << "KADMOS ERROR: " << getErrorText() << endl;
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}
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}
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/* returns a TQString containing the string describing the kadmos error */
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TQString CRep::getErrorText() const
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{
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re_ErrorText Err;
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re_GetErrorText(&Err);
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return TQString::fromLocal8Bit( Err.text );
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}
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bool CRep::kadmosError()
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{
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return m_Error != RE_SUCCESS;
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}
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#include "kadmosocr.moc"
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#endif /* HAVE_KADMOS */
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// } /* End of Kadmos namespace */
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