goldendict-ng/indexedzip.cc
2022-06-02 20:11:05 +08:00

285 lines
6.8 KiB
C++

/* This file is (c) 2008-2012 Konstantin Isakov <ikm@goldendict.org>
* Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */
#include "indexedzip.hh"
#include "zipfile.hh"
#include <zlib.h>
#include "gddebug.hh"
#include "utf8.hh"
#include "iconv.hh"
#include "wstring_qt.hh"
#if (QT_VERSION >= QT_VERSION_CHECK(6,0,0))
#include <QtCore5Compat/QTextCodec>
#else
#include <QTextCodec>
#endif
#include <QDebug>
using namespace BtreeIndexing;
using std::vector;
bool IndexedZip::openZipFile( QString const & name )
{
zip.setFileName( name );
zipIsOpen = zip.open( QFile::ReadOnly );
return zipIsOpen;
}
bool IndexedZip::hasFile( gd::wstring const & name )
{
if ( !zipIsOpen )
return false;
vector< WordArticleLink > links = findArticles( name );
return !links.empty();
}
bool IndexedZip::loadFile( gd::wstring const & name, vector< char > & data )
{
if ( !zipIsOpen )
return false;
vector< WordArticleLink > links = findArticles( name );
if ( links.empty() )
return false;
return loadFile( links[ 0 ].articleOffset, data );
}
bool IndexedZip::loadFile( uint32_t offset, vector< char > & data )
{
if ( !zipIsOpen )
return false;
// Now seek into the zip file and read its header
if ( !zip.seek( offset ) )
return false;
ZipFile::LocalFileHeader header;
if ( !ZipFile::readLocalHeader( zip, header ) )
{
GD_DPRINTF( "Failed to load header" );
return false;
}
// Which algorithm was used?
switch( header.compressionMethod )
{
case ZipFile::Uncompressed:
GD_DPRINTF( "Uncompressed" );
data.resize( header.uncompressedSize );
return (size_t) zip.read( &data.front(), data.size() ) == data.size();
case ZipFile::Deflated:
{
GD_DPRINTF( "Deflated" );
// Now do the deflation
QByteArray compressedData = zip.read( header.compressedSize );
if ( compressedData.size() != (int)header.compressedSize )
return false;
data.resize( header.uncompressedSize );
z_stream stream;
memset( &stream, 0, sizeof( stream ) );
stream.next_in = ( Bytef * ) compressedData.data();
stream.avail_in = compressedData.size();
stream.next_out = ( Bytef * ) &data.front();
stream.avail_out = data.size();
if ( inflateInit2( &stream, -MAX_WBITS ) != Z_OK )
{
data.clear();
return false;
}
if ( inflate( &stream, Z_FINISH ) != Z_STREAM_END )
{
GD_DPRINTF( "Not zstream end!" );
data.clear();
inflateEnd( &stream );
return false;
}
inflateEnd( &stream );
return true;
}
default:
return false;
}
}
bool IndexedZip::indexFile( BtreeIndexing::IndexedWords &zipFileNames, quint32 * filesCount )
{
if ( !zipIsOpen )
return false;
if ( !ZipFile::positionAtCentralDir( zip ) )
return false;
// File seems to be a valid zip file
QTextCodec * localeCodec = QTextCodec::codecForLocale();
ZipFile::CentralDirEntry entry;
bool alreadyCounted;
if( filesCount )
*filesCount = 0;
while( ZipFile::readNextEntry( zip, entry ) )
{
if ( entry.compressionMethod == ZipFile::Unsupported )
{
qWarning( "Zip warning: compression method unsupported -- skipping file \"%s\"\n",
entry.fileName.data() );
continue;
}
// Check if the file name has some non-ascii letters.
unsigned char const * ptr = ( unsigned char const * )
entry.fileName.constData();
bool hasNonAscii = false;
for( ; ; )
{
if ( *ptr & 0x80 )
{
hasNonAscii = true;
break;
}
else
if ( !*ptr++ )
break;
}
alreadyCounted = false;
if ( !hasNonAscii )
{
// Add entry as is
zipFileNames.addSingleWord( Utf8::decode( entry.fileName.data() ),
entry.localHeaderOffset );
if( filesCount )
*filesCount += 1;
}
else
{
// Try assuming different encodings. Those are UTF8, system locale and two
// Russian ones (Windows and Windows OEM). Unfortunately, zip
// files do not say which encoding they utilize.
// Utf8
try
{
wstring decoded = Utf8::decode( entry.fileName.constData() );
zipFileNames.addSingleWord( decoded,
entry.localHeaderOffset );
if( filesCount != 0 && !alreadyCounted )
{
*filesCount += 1;
alreadyCounted = true;
}
}
catch( Utf8::exCantDecode & )
{
// Failed to decode
}
if( !entry.fileNameInUTF8 )
{
wstring nameInSystemLocale;
// System locale
if( localeCodec )
{
QString name = localeCodec->toUnicode( entry.fileName.constData(),
entry.fileName.size() );
nameInSystemLocale = gd::toWString( name );
if( !nameInSystemLocale.empty() )
{
zipFileNames.addSingleWord( nameInSystemLocale,
entry.localHeaderOffset );
if( filesCount != 0 && !alreadyCounted )
{
*filesCount += 1;
alreadyCounted = true;
}
}
}
// CP866
try
{
wstring decoded = Iconv::toWstring( "CP866", entry.fileName.constData(),
entry.fileName.size() );
if( nameInSystemLocale.compare( decoded ) != 0 )
{
zipFileNames.addSingleWord( decoded,
entry.localHeaderOffset );
if( filesCount != 0 && !alreadyCounted )
{
*filesCount += 1;
alreadyCounted = true;
}
}
}
catch( Iconv::Ex & )
{
// Failed to decode
}
// CP1251
try
{
wstring decoded = Iconv::toWstring( "CP1251", entry.fileName.constData(),
entry.fileName.size() );
if( nameInSystemLocale.compare( decoded ) != 0 )
{
zipFileNames.addSingleWord( decoded,
entry.localHeaderOffset );
if( filesCount != 0 && !alreadyCounted )
{
*filesCount += 1;
alreadyCounted = true;
}
}
}
catch( Iconv::Ex & )
{
// Failed to decode
}
}
}
}
return true;
}