goldendict-ng/aard.cc

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2012-02-20 21:47:14 +00:00
/* This file is (c) 2008-2012 Konstantin Isakov <ikm@goldendict.org>
* Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */
#include "aard.hh"
#include "btreeidx.hh"
#include "folding.hh"
#include "utf8.hh"
#include "chunkedstorage.hh"
#include "langcoder.hh"
#include "dprintf.hh"
#include "fsencoding.hh"
#include "decompress.hh"
#include <map>
#include <set>
#include <string>
#ifdef _MSC_VER
#include <stub_msvc.h>
#endif
#include <QString>
#include <QSemaphore>
#include <QThreadPool>
#include <QAtomicInt>
#include <QDomDocument>
#include "ufile.hh"
#include "wstring_qt.hh"
namespace Aard {
using std::map;
using std::multimap;
using std::pair;
using std::set;
using std::string;
using gd::wstring;
using BtreeIndexing::WordArticleLink;
using BtreeIndexing::IndexedWords;
using BtreeIndexing::IndexInfo;
namespace {
DEF_EX_STR( exNotDctFile, "Not an Sdictionary file", Dictionary::Ex )
DEF_EX_STR( exCantReadFile, "Can't read file", Dictionary::Ex )
DEF_EX_STR( exWordIsTooLarge, "Enountered a word that is too large:", Dictionary::Ex )
DEF_EX_STR( exSuddenEndOfFile, "Sudden end of file", Dictionary::Ex )
#ifdef _MSC_VER
#pragma pack( push, 1 )
#endif
// Big-Endian template
// http://habrahabr.ru/blogs/cpp/121811/
template<typename T>
struct BigEndian
{
union
{
unsigned char bytes[sizeof(T)];
T raw_value;
};
BigEndian(T t = T())
{
operator =(t);
}
BigEndian(const BigEndian<T> & t)
{
raw_value = t.raw_value;
}
operator const T() const
{
T t = T();
for (unsigned i = 0; i < sizeof(T); i++)
t |= T(bytes[sizeof(T) - 1 - i]) << (i << 3);
return t;
}
const T operator = (const T t)
{
for (unsigned i = 0; i < sizeof(T); i++)
bytes[sizeof(T) - 1 - i] = (unsigned char)( t >> (i << 3) );
return t;
}
}
#ifndef _MSC_VER
__attribute__((packed))
#endif
;
typedef BigEndian< uint16_t > uint16_be;
typedef BigEndian< uint32_t > uint32_be;
typedef BigEndian< uint64_t > uint64_be;
/// AAR file header
struct AAR_header
{
char signature[4];
char checksum[40];
uint16_be version;
char uuid[16];
uint16_be volume;
uint16_be totalVolumes;
uint32_be metaLength;
uint32_be wordsCount;
uint32_be articleOffset;
char indexItemFormat[4];
char keyLengthFormat[2];
char articleLengthFormat[2];
}
#ifndef _MSC_VER
__attribute__((packed))
#endif
;
struct IndexElement
{
uint32_be wordOffset;
uint32_be articleOffset;
}
#ifndef _MSC_VER
__attribute__((packed))
#endif
;
struct IndexElement64
{
uint32_be wordOffset;
uint64_be articleOffset;
}
#ifndef _MSC_VER
__attribute__((packed))
#endif
;
enum
{
Signature = 0x58524141, // AARX on little-endian, XRAA on big-endian
CurrentFormatVersion = 1 + BtreeIndexing::FormatVersion + Folding::Version
};
struct IdxHeader
{
uint32_t signature; // First comes the signature, AARX
uint32_t formatVersion; // File format version (CurrentFormatVersion)
uint32_t chunksOffset; // The offset to chunks' storage
uint32_t indexBtreeMaxElements; // Two fields from IndexInfo
uint32_t indexRootOffset;
uint32_t wordCount;
uint32_t articleCount;
uint32_t langFrom; // Source language
uint32_t langTo; // Target language
}
#ifndef _MSC_VER
__attribute__((packed))
#endif
;
#ifdef _MSC_VER
#pragma pack( pop, 1 )
#endif
bool indexIsOldOrBad( string const & indexFile )
{
File::Class idx( indexFile, "rb" );
IdxHeader header;
return idx.readRecords( &header, sizeof( header ), 1 ) != 1 ||
header.signature != Signature ||
header.formatVersion != CurrentFormatVersion;
}
void readJSONValue( string const & source, string & str, string::size_type & pos)
{
int level = 1;
char endChar;
str.push_back( source[pos] );
if( source[pos] == '{')
endChar = '}';
else if( source[pos] == '[' )
endChar = ']';
else if( source[pos] == '\"' )
{
str.clear();
endChar = '\"';
}
else
endChar = ',';
pos++;
char ch = 0;
char lastCh = 0;
while( !( ch == endChar && lastCh != '\\' && level == 0 )
&& pos < source.size() )
{
lastCh = ch;
ch = source[ pos++ ];
if( ( ch == '{' || ch == '[' ) && lastCh != '\\' )
level++;
if( ( ch == '}' || ch == ']' ) && lastCh != '\\' )
level--;
if( ch == endChar &&
( ( ch == '\"' && lastCh != '\\' ) || ch == ',' )
&& level == 1)
break;
str.push_back( ch );
}
}
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map< string, string > parseMetaData( string const & metaData )
{
// Parsing JSON string
map< string, string > data;
string name, value;
string::size_type n = 0;
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while( n < metaData.length() && metaData[n] != '{' )
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n++;
while( n < metaData.length() )
{
// Skip to '"'
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while( n < metaData.length() && metaData[n] != '\"' )
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n++;
if( ++n >= metaData.length() )
break;
// Read name
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while( n < metaData.length() &&
!( ( metaData[n] == '\"' || metaData[n] == '{' ) && metaData[n-1] != '\\' ) )
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name.push_back( metaData[n++]);
// Skip to ':'
if( ++n >= metaData.length() )
break;
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while( n < metaData.length() && metaData[n] != ':' )
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n++;
if( ++n >= metaData.length() )
break;
// Find value start after ':'
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while( n < metaData.length()
&& !( ( metaData[n] == '\"'
|| metaData[n] == '{'
|| metaData[n] == '['
|| ( metaData[n] >= '0' && metaData[n] <= '9' ) )
&& metaData[n-1] != '\\' ) )
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n++;
if( n >= metaData.length() )
break;
readJSONValue( metaData, value, n);
data[name] = value;
name.clear();
value.clear();
if( ++n >= metaData.length() )
break;
}
return data;
}
class AardDictionary: public BtreeIndexing::BtreeDictionary
{
Mutex idxMutex;
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Mutex aardMutex;
File::Class idx;
IdxHeader idxHeader;
ChunkedStorage::Reader chunks;
string dictionaryName;
File::Class df;
public:
AardDictionary( string const & id, string const & indexFile,
vector< string > const & dictionaryFiles );
~AardDictionary();
virtual string getName() throw()
{ return dictionaryName; }
virtual map< Dictionary::Property, string > getProperties() throw()
{ return map< Dictionary::Property, string >(); }
virtual unsigned long getArticleCount() throw()
{ return idxHeader.articleCount; }
virtual unsigned long getWordCount() throw()
{ return idxHeader.wordCount; }
inline virtual quint32 getLangFrom() const
{ return idxHeader.langFrom; }
inline virtual quint32 getLangTo() const
{ return idxHeader.langTo; }
virtual sptr< Dictionary::DataRequest > getArticle( wstring const &,
vector< wstring > const & alts,
wstring const & )
throw( std::exception );
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virtual QString const& getDescription();
protected:
virtual void loadIcon() throw();
private:
/// Loads the article.
void loadArticle( uint32_t address,
string & articleText );
string convert( string const & in_data );
friend class AardArticleRequest;
};
AardDictionary::AardDictionary( string const & id,
string const & indexFile,
vector< string > const & dictionaryFiles ):
BtreeDictionary( id, dictionaryFiles ),
idx( indexFile, "rb" ),
idxHeader( idx.read< IdxHeader >() ),
chunks( idx, idxHeader.chunksOffset ),
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df( dictionaryFiles[ 0 ], "rb" )
{
// Read dictionary name
idx.seek( sizeof( idxHeader ) );
vector< char > dName( idx.read< uint32_t >() );
if( dName.size() )
{
idx.read( &dName.front(), dName.size() );
dictionaryName = string( &dName.front(), dName.size() );
}
// Initialize the index
openIndex( IndexInfo( idxHeader.indexBtreeMaxElements,
idxHeader.indexRootOffset ),
idx, idxMutex );
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// Read decription
}
AardDictionary::~AardDictionary()
{
df.close();
}
void AardDictionary::loadIcon() throw()
{
QString fileName =
QDir::fromNativeSeparators( FsEncoding::decode( getDictionaryFilenames()[ 0 ].c_str() ) );
// Remove the extension
fileName.chop( 3 );
if( !loadIconFromFile( fileName ) )
{
// Load failed -- use default icons
dictionaryNativeIcon = dictionaryIcon = QIcon(":/icons/icon32_aard.png");
}
dictionaryIconLoaded = true;
}
string AardDictionary::convert( const string & in )
{
string inConverted;
char inCh, lastCh = 0;
bool afterEol = false;
for( string::const_iterator i = in.begin(), j = in.end(); i != j; ++i )
{
inCh = *i;
if( lastCh == '\\' )
{
inConverted.erase( inConverted.size() - 1 );
lastCh = 0;
if( inCh == 'n' )
{
inConverted.append( "<br/>");
afterEol = true;
continue;
}
else if( inCh == 'r')
continue;
}
else if( inCh == ' ' && afterEol )
{
inConverted.append( "&nbsp;" );
continue;
} else
lastCh = inCh;
afterEol = false;
inConverted.push_back( inCh );
}
QDomDocument dd;
QString errorStr;
int errorLine, errorColumn;
if( !dd.setContent( QByteArray( inConverted.c_str() ), false, &errorStr, &errorLine, &errorColumn ) )
{
FDPRINTF( stderr, "Aard article parse failed: %s at %d,%d\n", errorStr.toLocal8Bit().constData(), errorLine, errorColumn );
FDPRINTF( stderr, "The input was: %s\n", in.c_str() );
return inConverted;
}
QDomNodeList nodes = dd.elementsByTagName( "a" ); // References
for( int i = 0; i < nodes.count(); i++ )
{
QDomElement el = nodes.at( i ).toElement();
QString ref = el.attribute( "href", "" );
if( ref.size() == 0 || ref.indexOf( "http://") != -1 || ref[0] == '#' )
continue;
if( ref.indexOf( "w:") == 0 || ref.indexOf( "s:") == 0 )
ref.replace( 0, 2, "bword:" );
else
ref.insert( 0, "bword:" );
el.setAttribute( "href", ref );
}
return dd.toByteArray().data();
}
void AardDictionary::loadArticle( uint32_t address,
string & articleText )
{
uint32_t articleOffset = address;
uint32_t articleSize;
uint32_be size;
vector< char > articleBody;
articleText.clear();
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{
Mutex::Lock _( aardMutex );
df.seek( articleOffset );
df.read( &size, sizeof(size) );
articleSize = size;
articleBody.resize( articleSize );
df.read( &articleBody.front(), articleSize );
}
if ( articleBody.empty() )
throw exCantReadFile( getDictionaryFilenames()[ 0 ] );
string text = decompressBzip2( articleBody.data(), articleSize );
if( text.empty() )
text = decompressZlib( articleBody.data(), articleSize );
if( text.empty() )
text = string( articleBody.data(), articleSize );
string::size_type n = 0;
while( n < text.size() && text[n] != '\"' )
n++;
if( n >= text.size() )
return;
readJSONValue( text, articleText, n );
if( articleText.empty() )
{
n = text.find( "\"r\"" );
if( n != string::npos )
{
n += 3;
while( n < text.size() && text[n] != '\"' )
n++;
if( n >= text.size() )
return;
string link;
readJSONValue( text, link, n );
if( !link.empty() )
articleText = "<a href=\"" + link + "\">" + link + "</a>";
}
}
if( !articleText.empty() )
articleText = convert( articleText );
articleText = "<div class=\"sdict\">" + articleText + "</div>";
}
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QString const& AardDictionary::getDescription()
{
if( !dictionaryDescription.isEmpty() )
return dictionaryDescription;
AAR_header dictHeader;
uint32_t size;
vector< char > data;
{
Mutex::Lock _( aardMutex );
df.seek( 0 );
df.read( &dictHeader, sizeof(dictHeader) );
size = dictHeader.metaLength;
data.resize( size );
df.read( &data.front(), size );
}
string metaStr = decompressBzip2( data.data(), size );
if( metaStr.empty() )
metaStr = decompressZlib( data.data(), size );
map< string, string > meta = parseMetaData( metaStr );
if( !meta.empty() )
{
map< string, string >::const_iterator iter = meta.find( "copyright" );
if( iter != meta.end() )
dictionaryDescription = "Copyright: " + QString::fromUtf8( iter->second.c_str() ) + "\n\n";
iter = meta.find( "version" );
if( iter != meta.end() )
dictionaryDescription = "Version: " + QString::fromUtf8( iter->second.c_str() ) + "\n\n";
iter = meta.find( "description" );
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if( iter != meta.end() )
{
QString desc = QString::fromUtf8( iter->second.c_str() );
desc.replace( "\\n", "\n" );
desc.replace( "\\t", "\t" );
dictionaryDescription += desc;
}
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}
if( dictionaryDescription.isEmpty() )
dictionaryDescription = "NONE";
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return dictionaryDescription;
}
/// AardDictionary::getArticle()
class AardArticleRequest;
class AardArticleRequestRunnable: public QRunnable
{
AardArticleRequest & r;
QSemaphore & hasExited;
public:
AardArticleRequestRunnable( AardArticleRequest & r_,
QSemaphore & hasExited_ ): r( r_ ),
hasExited( hasExited_ )
{}
~AardArticleRequestRunnable()
{
hasExited.release();
}
virtual void run();
};
class AardArticleRequest: public Dictionary::DataRequest
{
friend class AardArticleRequestRunnable;
wstring word;
vector< wstring > alts;
AardDictionary & dict;
QAtomicInt isCancelled;
QSemaphore hasExited;
public:
AardArticleRequest( wstring const & word_,
vector< wstring > const & alts_,
AardDictionary & dict_ ):
word( word_ ), alts( alts_ ), dict( dict_ )
{
QThreadPool::globalInstance()->start(
new AardArticleRequestRunnable( *this, hasExited ) );
}
void run(); // Run from another thread by DslArticleRequestRunnable
virtual void cancel()
{
isCancelled.ref();
}
~AardArticleRequest()
{
isCancelled.ref();
hasExited.acquire();
}
};
void AardArticleRequestRunnable::run()
{
r.run();
}
void AardArticleRequest::run()
{
if ( isCancelled )
{
finish();
return;
}
vector< WordArticleLink > chain = dict.findArticles( word );
for( unsigned x = 0; x < alts.size(); ++x )
{
/// Make an additional query for each alt
vector< WordArticleLink > altChain = dict.findArticles( alts[ x ] );
chain.insert( chain.end(), altChain.begin(), altChain.end() );
}
multimap< wstring, pair< string, string > > mainArticles, alternateArticles;
set< uint32_t > articlesIncluded; // Some synonims make it that the articles
// appear several times. We combat this
// by only allowing them to appear once.
wstring wordCaseFolded = Folding::applySimpleCaseOnly( word );
for( unsigned x = 0; x < chain.size(); ++x )
{
if ( isCancelled )
{
finish();
return;
}
if ( articlesIncluded.find( chain[ x ].articleOffset ) != articlesIncluded.end() )
continue; // We already have this article in the body.
// Now grab that article
string headword, articleText;
headword = chain[ x ].word;
dict.loadArticle( chain[ x ].articleOffset, articleText );
// Ok. Now, does it go to main articles, or to alternate ones? We list
// main ones first, and alternates after.
// We do the case-folded comparison here.
wstring headwordStripped =
Folding::applySimpleCaseOnly( Utf8::decode( headword ) );
multimap< wstring, pair< string, string > > & mapToUse =
( wordCaseFolded == headwordStripped ) ?
mainArticles : alternateArticles;
mapToUse.insert( pair< wstring, pair< string, string > >(
Folding::applySimpleCaseOnly( Utf8::decode( headword ) ),
pair< string, string >( headword, articleText ) ) );
articlesIncluded.insert( chain[ x ].articleOffset );
}
if ( mainArticles.empty() && alternateArticles.empty() )
{
// No such word
finish();
return;
}
string result;
multimap< wstring, pair< string, string > >::const_iterator i;
for( i = mainArticles.begin(); i != mainArticles.end(); ++i )
{
result += "<h3>";
result += i->second.first;
result += "</h3>";
result += i->second.second;
}
for( i = alternateArticles.begin(); i != alternateArticles.end(); ++i )
{
result += "<h3>";
result += i->second.first;
result += "</h3>";
result += i->second.second;
}
Mutex::Lock _( dataMutex );
data.resize( result.size() );
memcpy( &data.front(), result.data(), result.size() );
hasAnyData = true;
finish();
}
sptr< Dictionary::DataRequest > AardDictionary::getArticle( wstring const & word,
vector< wstring > const & alts,
wstring const & )
throw( std::exception )
{
return new AardArticleRequest( word, alts, *this );
}
} // anonymous namespace
vector< sptr< Dictionary::Class > > makeDictionaries(
vector< string > const & fileNames,
string const & indicesDir,
Dictionary::Initializing & initializing )
throw( std::exception )
{
vector< sptr< Dictionary::Class > > dictionaries;
for( vector< string >::const_iterator i = fileNames.begin(); i != fileNames.end();
++i )
{
// Skip files with the extensions different to .aar to speed up the
// scanning
if ( i->size() < 4 ||
strcasecmp( i->c_str() + ( i->size() - 4 ), ".aar" ) != 0 )
continue;
// Got the file -- check if we need to rebuid the index
vector< string > dictFiles( 1, *i );
string dictId = Dictionary::makeDictionaryId( dictFiles );
string indexFile = indicesDir + dictId;
if ( Dictionary::needToRebuildIndex( dictFiles, indexFile ) ||
indexIsOldOrBad( indexFile ) )
{
try
{
{
QFileInfo info( FsEncoding::decode( i->c_str() ) );
if( info.size() > ULONG_MAX )
{
DPRINTF( "File %s is too large", i->c_str() );
continue;
}
}
File::Class df( *i, "rb" );
AAR_header dictHeader;
df.read( &dictHeader, sizeof(dictHeader) );
bool has64bitIndex = !strncmp( dictHeader.indexItemFormat, ">LQ", 4 );
if( strncmp( dictHeader.signature, "aard", 4 )
|| ( !has64bitIndex && strncmp( dictHeader.indexItemFormat, ">LL", 4 ) )
|| strncmp( dictHeader.keyLengthFormat, ">H", 2 )
|| strncmp( dictHeader.articleLengthFormat, ">L", 2) )
{
DPRINTF( "File %s is not in supported aard format", i->c_str() );
continue;
}
vector< char > data;
uint32_t size = dictHeader.metaLength;
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if( size == 0 )
{
DPRINTF( "File %s has invalid metadata", i->c_str() );
continue;
}
data.resize( size );
df.read( &data.front(), size );
string metaStr = decompressBzip2( data.data(), size );
if( metaStr.empty() )
metaStr = decompressZlib( data.data(), size );
map< string, string > meta = parseMetaData( metaStr );
if( meta.empty() )
{
DPRINTF( "File %s has invalid metadata", i->c_str() );
continue;
}
string dictName;
map< string, string >::const_iterator iter = meta.find( "title" );
if( iter != meta.end() )
dictName = iter->second;
uint16_t volumes = dictHeader.totalVolumes;
if( volumes > 1 )
{
QString ss;
ss.sprintf( " (%i/%i)", (uint16_t)(dictHeader.volume), volumes );
dictName += ss.toLocal8Bit().data();
}
string langFrom;
iter = meta.find( "index_language" );
if( iter != meta.end() )
langFrom = iter->second;
string langTo;
iter = meta.find( "article_language" );
if( iter != meta.end() )
langTo = iter->second;
initializing.indexingDictionary( dictName );
File::Class idx( indexFile, "wb" );
IdxHeader idxHeader;
memset( &idxHeader, 0, sizeof( idxHeader ) );
// We write a dummy header first. At the end of the process the header
// will be rewritten with the right values.
idx.write( idxHeader );
idx.write( (uint32_t) dictName.size() );
if( !dictName.empty() )
idx.write( dictName.data(), dictName.size() );
IndexedWords indexedWords;
ChunkedStorage::Writer chunks( idx );
uint32_t wordCount = dictHeader.wordsCount;
set< uint32_t > articleOffsets;
uint32_t pos = df.tell();
uint32_t wordsBase = pos + wordCount * ( has64bitIndex ? sizeof( IndexElement64 ) : sizeof( IndexElement ) );
uint32_t articlesBase = dictHeader.articleOffset;
for( uint32_t j = 0; j < wordCount; j++ )
{
uint32_t articleOffset;
uint32_t wordOffset;
if( has64bitIndex )
{
IndexElement64 el64;
df.seek( pos );
df.read( &el64, sizeof(el64) );
articleOffset = articlesBase + el64.articleOffset;
wordOffset = wordsBase + el64.wordOffset;
}
else
{
IndexElement el;
df.seek( pos );
df.read( &el, sizeof(el) );
articleOffset = articlesBase + el.articleOffset;
wordOffset = wordsBase + el.wordOffset;
}
df.seek( wordOffset );
uint16_be sizeBE;
df.read( &sizeBE, sizeof(sizeBE) );
uint16_t wordSize = sizeBE;
data.resize( wordSize );
df.read( &data.front(), wordSize );
if( articleOffsets.find( articleOffset ) == articleOffsets.end() )
articleOffsets.insert( articleOffset );
// Insert new entry
indexedWords.addWord( Utf8::decode( string( data.data(), wordSize ) ), articleOffset);
pos += has64bitIndex ? sizeof( IndexElement64 ) : sizeof( IndexElement );
}
// Finish with the chunks
idxHeader.chunksOffset = chunks.finish();
// Build index
IndexInfo idxInfo = BtreeIndexing::buildIndex( indexedWords, idx );
idxHeader.indexBtreeMaxElements = idxInfo.btreeMaxElements;
idxHeader.indexRootOffset = idxInfo.rootOffset;
indexedWords.clear(); // Release memory -- no need for this data
// That concludes it. Update the header.
idxHeader.signature = Signature;
idxHeader.formatVersion = CurrentFormatVersion;
idxHeader.articleCount = articleOffsets.size();
idxHeader.wordCount = wordCount;
if( langFrom.size() == 3)
idxHeader.langFrom = LangCoder::code3toInt( langFrom.c_str() );
else if( langFrom.size() == 2 )
idxHeader.langFrom = LangCoder::code2toInt( langFrom.c_str() );
if( langTo.size() == 3)
idxHeader.langTo = LangCoder::code3toInt( langTo.c_str() );
else if( langTo.size() == 2 )
idxHeader.langTo = LangCoder::code2toInt( langTo.c_str() );
idx.rewind();
idx.write( &idxHeader, sizeof( idxHeader ) );
}
catch( std::exception & e )
{
FDPRINTF( stderr, "Aard dictionary indexing failed: %s, error: %s\n",
i->c_str(), e.what() );
continue;
}
catch( ... )
{
FDPRINTF( stderr, "Aard dictionary indexing failed\n" );
continue;
}
} // if need to rebuild
dictionaries.push_back( new AardDictionary( dictId,
indexFile,
dictFiles ) );
}
return dictionaries;
}
}