goldendict-ng/dsl_details.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 "dsl_details.hh"
#include "folding.hh"
#include "langcoder.hh"
#include "gddebug.hh"
#include "ufile.hh"
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#include "wstring_qt.hh"
#include "utf8.hh"
#include <stdio.h>
#include <wctype.h>
#include <algorithm>
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namespace Dsl {
namespace Details {
using gd::wstring;
using std::list;
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using Utf8::Encoding;
#ifndef __linux__
// wcscasecmp() function is a GNU extension, we need to reimplement it
// for non-GNU systems.
int wcscasecmp( const wchar *s1, const wchar *s2 )
{
for( ; ; ++s1, ++s2 )
{
if ( towlower( *s1 ) != towlower( *s2 ) )
return towlower( *s1 ) > towlower( *s2 ) ? 1 : -1;
if ( !*s1 )
break;
}
return 0;
}
#endif
static DSLLangCode LangCodes[] =
{
{ 1, "en" },
{ 1033, "en" },
{ 2, "ru" },
{ 1049, "ru" },
{ 1068, "az" },
{ 1025, "ar" },
{ 1067, "am" },
{ 15, "af" },
{ 1078, "af" },
{ 9, "eu" },
{ 1069, "eu" },
{ 1133, "ba" },
{ 21, "be" },
{ 1059, "be" },
{ 22, "bg" },
{ 1026, "bg" },
{ 19, "hu" },
{ 1038, "hu" },
{ 10, "nl" },
{ 1043, "nl" },
{ 1032, "el" },
{ 1079, "ka" },
{ 13, "da" },
{ 1030, "da" },
{ 16, "id" },
{ 1057, "id" },
{ 1039, "is" },
{ 6, "es" },
{ 7, "es" },
{ 3082, "es" },
{ 1034, "es" },
{ 5, "it" },
{ 1040, "it" },
{ 1087, "kk" },
{ 1595, "ky" },
{ 28, "ch" },
{ 29, "ch" },
{ 1028, "ch" },
{ 2052, "ch" },
{ 30, "la" },
{ 1540, "la" },
{ 1142, "la" },
{ 1062, "lv" },
{ 1063, "lt" },
{ 1086, "ms" },
{ 3, "de" },
{ 26, "de" },
{ 1031, "de" },
{ 32775, "de" },
{ 14, "nb" },
{ 1044, "nb" },
{ 25, "nn" },
{ 2068, "nn" },
{ 20, "pl" },
{ 1045, "pl" },
{ 8, "pt" },
{ 2070, "pt" },
{ 1048, "ro" },
{ 23, "sr" },
{ 3098, "sr" },
{ 1051, "sk" },
{ 1060, "sl" },
{ 17, "sw" },
{ 1089, "sw" },
{ 1064, "tg" },
{ 1092, "tt" },
{ 27, "tr" },
{ 1055, "tr" },
{ 1090, "tk" },
{ 1091, "tz" },
{ 24, "uk" },
{ 1058, "uk" },
{ 11, "fi" },
{ 1035, "fi" },
{ 4, "fr" },
{ 1036, "fr" },
{ 18, "cs" },
{ 1029, "cs" },
{ 12, "sv" },
{ 1053, "sv" },
{ 1061, "et" },
{ 0, "" },
};
string findCodeForDslId( int id )
{
for( DSLLangCode const * lc = LangCodes; lc->code_id; ++lc )
{
if ( id == lc->code_id )
{
// We've got a match
return string( lc->code );
}
}
return string();
}
bool isAtSignFirst( wstring const & str )
{
// Test if '@' is first in string except spaces and dsl tags
QRegExp reg( "[ \\t]*(?:\\[[^\\]]+\\][ \\t]*)*@", Qt::CaseInsensitive, QRegExp::RegExp2 );
return reg.indexIn( gd::toQString( str ) ) == 0;
}
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/////////////// ArticleDom
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wstring ArticleDom::Node::renderAsText( bool stripTrsTag ) const
{
if ( !isTag )
return text;
wstring result;
for( list< Node >::const_iterator i = begin(); i != end(); ++i )
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if( !stripTrsTag || i->tagName != GD_NATIVE_TO_WS( L"!trs" ) )
result += i->renderAsText( stripTrsTag );
return result;
}
// Returns true if src == 'm' and dest is 'mX', where X is a digit
static inline bool checkM( wstring const & dest, wstring const & src )
{
return ( src == GD_NATIVE_TO_WS( L"m" ) && dest.size() == 2 &&
dest[ 0 ] == L'm' && iswdigit( dest[ 1 ] ) );
}
ArticleDom::ArticleDom( wstring const & str, string const & dictName,
wstring const & headword_):
root( Node::Tag(), wstring(), wstring() ), stringPos( str.c_str() ),
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lineStartPos( str.c_str() ),
transcriptionCount( 0 ),
mediaCount( 0 ),
dictionaryName( dictName ),
headword( headword_ )
{
list< Node * > stack; // Currently opened tags
Node * textNode = 0; // A leaf node which currently accumulates text.
try
{
for( ;; )
{
nextChar();
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if ( ch == L'@' && !escaped )
{
if( !atSignFirstInLine() )
{
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// Not insided card
if( dictName.empty() )
gdWarning( "Unescaped '@' symbol found" );
else
gdWarning( "Unescaped '@' symbol found in \"%s\"", dictName.c_str() );
}
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else
{
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// Insided card
wstring linkTo;
nextChar();
for( ; ; nextChar() )
{
if( ch == L'\n' )
break;
if( ch != L'\r' )
linkTo.push_back( ch );
}
linkTo = Folding::trimWhitespace( linkTo );
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if( !linkTo.empty() )
{
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list< wstring > allLinkEntries;
processUnsortedParts( linkTo, true );
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expandOptionalParts( linkTo, &allLinkEntries );
for( list< wstring >::iterator entry = allLinkEntries.begin();
entry != allLinkEntries.end(); )
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{
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if ( !textNode )
{
Node text = Node( Node::Text(), wstring() );
if ( stack.empty() )
{
root.push_back( text );
stack.push_back( &root.back() );
}
else
{
stack.back()->push_back( text );
stack.push_back( &stack.back()->back() );
}
textNode = stack.back();
}
textNode->text.push_back( L'-' );
textNode->text.push_back( L' ' );
// Close the currently opened text node
stack.pop_back();
textNode = 0;
wstring linkText = Folding::trimWhitespace( *entry );
ArticleDom nodeDom( linkText, dictName, headword_ );
Node link( Node::Tag(), GD_NATIVE_TO_WS( L"@" ), wstring() );
for( Node::iterator n = nodeDom.root.begin(); n != nodeDom.root.end(); ++n )
link.push_back( *n );
++entry;
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if ( stack.empty() )
{
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root.push_back( link );
if( entry != allLinkEntries.end() ) // Add line break before next entry
root.push_back( Node( Node::Tag(), GD_NATIVE_TO_WS( L"br" ), wstring() ) );
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}
else
{
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stack.back()->push_back( link );
if( entry != allLinkEntries.end() )
stack.back()->push_back( Node( Node::Tag(), GD_NATIVE_TO_WS( L"br" ), wstring() ) );
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}
}
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// Skip to next '@'
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while( !( ch == L'@' && !escaped && atSignFirstInLine() ) )
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nextChar();
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stringPos--;
ch = L'\n';
escaped = false;
}
}
} // if ( ch == L'@' )
if ( ch == L'[' && !escaped )
{
// Beginning of a tag.
bool isClosing;
wstring name;
wstring attrs;
try
{
do
{
nextChar();
} while( Folding::isWhitespace( ch ) );
if ( ch == L'/' && !escaped )
{
// A closing tag.
isClosing = true;
nextChar();
}
else
isClosing = false;
// Read tag's name
while( ( ch != L']' || escaped ) && !Folding::isWhitespace( ch ) )
{
name.push_back( ch );
nextChar();
}
while( Folding::isWhitespace( ch ) )
nextChar();
// Read attrs
while( ch != L']' || escaped )
{
attrs.push_back( ch );
nextChar();
}
}
catch( eot )
{
if( !dictionaryName.empty() )
gdWarning( "DSL: Unfinished tag \"%s\" with attributes \"%s\" found in \"%s\", article \"%s\".",
gd::toQString( name ).toUtf8().data(), gd::toQString( attrs ).toUtf8().data(),
dictionaryName.c_str(), gd::toQString( headword ).toUtf8().data() );
else
gdWarning( "DSL: Unfinished tag \"%s\" with attributes \"%s\" found",
gd::toQString( name ).toUtf8().data(), gd::toQString( attrs ).toUtf8().data() );
throw eot();
}
// Add the tag, or close it
if ( textNode )
{
// Close the currently opened text node
stack.pop_back();
textNode = 0;
}
// If the tag is [t], we update the transcriptionCount
if ( name == GD_NATIVE_TO_WS( L"t" ) )
{
if ( isClosing )
{
if ( transcriptionCount )
--transcriptionCount;
}
else
++transcriptionCount;
}
// If the tag is [s], we update the mediaCount
if ( name == GD_NATIVE_TO_WS( L"s" ) )
{
if ( isClosing )
{
if ( mediaCount )
--mediaCount;
}
else
++mediaCount;
}
if ( !isClosing )
{
if ( name == GD_NATIVE_TO_WS( L"m" ) ||
( name.size() == 2 && name[ 0 ] == L'm' && iswdigit( name[ 1 ] ) ) )
{
// Opening an 'mX' or 'm' tag closes any previous 'm' tag
closeTag( GD_NATIVE_TO_WS( L"m" ), stack, false );
}
openTag( name, attrs, stack );
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if ( name == GD_NATIVE_TO_WS( L"br" ) )
{
// [br] tag don't have closing tag
closeTag( name, stack );
}
}
else
{
closeTag( name, stack );
} // if ( isClosing )
continue;
} // if ( ch == '[' )
if ( ch == L'<' && !escaped )
{
// Special case: the <<name>> link
nextChar();
if ( ch != L'<' || escaped )
{
// Ok, it's not it.
--stringPos;
if ( escaped )
{
--stringPos;
escaped = false;
}
ch = L'<';
}
else
{
// Get the link's body
do
{
nextChar();
} while( Folding::isWhitespace( ch ) );
wstring linkTo, linkText;
for( ; ; nextChar() )
{
// Is it the end?
if ( ch == L'>' && !escaped )
{
nextChar();
if ( ch == L'>' && !escaped )
break;
else
{
linkTo.push_back( L'>' );
linkTo.push_back( ch );
linkText.push_back( L'>' );
if( escaped )
linkText.push_back( L'\\' );
linkText.push_back( ch );
}
}
else
{
linkTo.push_back( ch );
if( escaped )
linkText.push_back( L'\\' );
linkText.push_back( ch );
}
}
// Add the corresponding node
if ( textNode )
{
// Close the currently opened text node
stack.pop_back();
textNode = 0;
}
linkText = Folding::trimWhitespace( linkText );
processUnsortedParts( linkText, true );
ArticleDom nodeDom( linkText, dictName, headword_ );
Node link( Node::Tag(), GD_NATIVE_TO_WS( L"ref" ), wstring() );
for( Node::iterator n = nodeDom.root.begin(); n != nodeDom.root.end(); ++n )
link.push_back( *n );
if ( stack.empty() )
root.push_back( link );
else
stack.back()->push_back( link );
continue;
}
} // if ( ch == '<' )
if ( ch == L'{' && !escaped )
{
// Special case: {{comment}}
nextChar();
if ( ch != L'{' || escaped )
{
// Ok, it's not it.
--stringPos;
if ( escaped )
{
--stringPos;
escaped = false;
}
ch = L'{';
}
else
{
// Skip the comment's body
for( ; ; )
{
nextChar();
// Is it the end?
if ( ch == L'}' && !escaped )
{
nextChar();
if ( ch == L'}' && !escaped )
break;
}
}
continue;
}
} // if ( ch == '{' )
// If we're here, we've got a normal symbol, to be saved as text.
// If there's currently no text node, open one
if ( !textNode )
{
Node text = Node( Node::Text(), wstring() );
if ( stack.empty() )
{
root.push_back( text );
stack.push_back( &root.back() );
}
else
{
stack.back()->push_back( text );
stack.push_back( &stack.back()->back() );
}
textNode = stack.back();
}
// If we're inside the transcription, do old-encoding conversion
if ( transcriptionCount )
{
switch ( ch )
{
case 0x2021: ch = 0xE6; break;
case 0x407: ch = 0x72; break;
case 0xB0: ch = 0x6B; break;
case 0x20AC: ch = 0x254; break;
case 0x404: ch = 0x7A; break;
case 0x40F: ch = 0x283; break;
case 0xAB: ch = 0x74; break;
case 0xAC: ch = 0x64; break;
case 0x2020: ch = 0x259; break;
case 0x490: ch = 0x6D; break;
case 0xA7: ch = 0x66; break;
case 0xAE: ch = 0x6C; break;
case 0xB1: ch = 0x67; break;
case 0x45E: ch = 0x65; break;
case 0xAD: ch = 0x6E; break;
case 0xA9: ch = 0x73; break;
case 0xA6: ch = 0x77; break;
case 0x2026: ch = 0x28C; break;
case 0x452: ch = 0x76; break;
case 0x408: ch = 0x70; break;
case 0x40C: ch = 0x75; break;
case 0x406: ch = 0x68; break;
case 0xB5: ch = 0x61; break;
case 0x491: ch = 0x25B; break;
case 0x40A: ch = 0x14B; break;
case 0x2030: ch = 0xF0; break;
case 0x456: ch = 0x6A; break;
case 0xA4: ch = 0x62; break;
case 0x409: ch = 0x292; break;
case 0x40E: ch = 0x69; break;
//case 0x44D: ch = 0x131; break;
case 0x40B: ch = 0x4E8; break;
case 0xB6: ch = 0x28A; break;
case 0x2018: ch = 0x251; break;
case 0x457: ch = 0x265; break;
case 0x458: ch = 0x153; break;
case 0x405: textNode->text.push_back( 0x153 ); ch = 0x303; break;
case 0x441: ch = 0x272; break;
case 0x442: textNode->text.push_back( 0x254 ); ch = 0x303; break;
case 0x443: ch = 0xF8; break;
case 0x445: textNode->text.push_back(0x25B ); ch = 0x303; break;
case 0x446: ch = 0xE7; break;
case 0x44C: textNode->text.push_back( 0x251 ); ch = 0x303; break;
case 0x44D: ch = 0x26A; break;
case 0x44F: ch = 0x252; break;
case 0x30: ch = 0x3B2; break;
case 0x31: textNode->text.push_back( 0x65 ); ch = 0x303; break;
case 0x32: ch = 0x25C; break;
case 0x33: ch = 0x129; break;
case 0x34: ch = 0xF5; break;
case 0x36: ch = 0x28E; break;
case 0x37: ch = 0x263; break;
case 0x38: ch = 0x1DD; break;
case 0x3A: ch = 0x2D0; break;
case 0x27: ch = 0x2C8; break;
case 0x455: ch = 0x1D0; break;
case 0xB7: ch = 0xE3; break;
case 0x00a0: ch = 0x02A7; break;
//case 0x00b1: ch = 0x0261; break;
case 0x0402: textNode->text.push_back( 0x0069 ); ch = L':'; break;
case 0x0403: textNode->text.push_back( 0x0251 ); ch = L':'; break;
//case 0x040b: ch = 0x03b8; break;
//case 0x040e: ch = 0x026a; break;
case 0x0428: ch = 0x0061; break;
case 0x0453: textNode->text.push_back( 0x0075 ); ch = L':'; break;
case 0x201a: ch = 0x0254; break;
case 0x201e: ch = 0x0259; break;
case 0x2039: textNode->text.push_back( 0x0064 ); ch = 0x0292; break;
}
}
if ( escaped && ch == L' ' && mediaCount == 0 )
ch = 0xA0; // Escaped spaces turn into non-breakable ones in Lingvo
textNode->text.push_back( ch );
} // for( ; ; )
}
catch( eot )
{
}
if ( textNode )
stack.pop_back();
if ( stack.size() )
{
GD_FDPRINTF( stderr, "Warning: %u tags were unclosed.\n", (unsigned) stack.size() );
}
}
void ArticleDom::openTag( wstring const & name,
wstring const & attrs,
list<Node *> &stack )
{
list< Node > nodesToReopen;
if( name == GD_NATIVE_TO_WS( L"m" ) || checkM( name, GD_NATIVE_TO_WS( L"m" ) ) )
{
// All tags above [m] tag will be closed and reopened after
// to avoid break this tag by closing some other tag.
while( stack.size() )
{
nodesToReopen.push_back( Node( Node::Tag(), stack.back()->tagName,
stack.back()->tagAttrs ) );
if ( stack.back()->empty() )
{
// Empty nodes are deleted since they're no use
stack.pop_back();
Node * parent = stack.size() ? stack.back() : &root;
parent->pop_back();
}
else
stack.pop_back();
}
}
// Add tag
Node node( Node::Tag(), name, attrs );
if ( stack.empty() )
{
root.push_back( node );
stack.push_back( &root.back() );
}
else
{
stack.back()->push_back( node );
stack.push_back( &stack.back()->back() );
}
// Reopen tags if needed
while( nodesToReopen.size() )
{
if ( stack.empty() )
{
root.push_back( nodesToReopen.back() );
stack.push_back( &root.back() );
}
else
{
stack.back()->push_back( nodesToReopen.back() );
stack.push_back( &stack.back()->back() );
}
nodesToReopen.pop_back();
}
}
void ArticleDom::closeTag( wstring const & name,
list< Node * > & stack,
bool warn )
{
// Find the tag which is to be closed
list< Node * >::reverse_iterator n;
for( n = stack.rbegin(); n != stack.rend(); ++n )
{
if ( (*n)->tagName == name || checkM( (*n)->tagName, name ) )
{
// Found it
break;
}
}
if ( n != stack.rend() )
{
// If there is a corresponding tag, close all tags above it,
// then close the tag itself, then reopen all the tags which got
// closed.
list< Node > nodesToReopen;
while( stack.size() )
{
bool found = stack.back()->tagName == name ||
checkM( stack.back()->tagName, name );
if ( !found )
nodesToReopen.push_back( Node( Node::Tag(), stack.back()->tagName,
stack.back()->tagAttrs ) );
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if ( stack.back()->empty() && stack.back()->tagName != GD_NATIVE_TO_WS( L"br" ) )
{
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// Empty nodes except [br] tag are deleted since they're no use
stack.pop_back();
Node * parent = stack.size() ? stack.back() : &root;
parent->pop_back();
}
else
stack.pop_back();
if ( found )
break;
}
while( nodesToReopen.size() )
{
if ( stack.empty() )
{
root.push_back( nodesToReopen.back() );
stack.push_back( &root.back() );
}
else
{
stack.back()->push_back( nodesToReopen.back() );
stack.push_back( &stack.back()->back() );
}
nodesToReopen.pop_back();
}
}
else
if ( warn )
{
if( !dictionaryName.empty() )
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gdWarning( "No corresponding opening tag for closing tag \"%s\" found in \"%s\", article \"%s\".",
gd::toQString( name ).toUtf8().data(), dictionaryName.c_str(),
gd::toQString( headword ).toUtf8().data() );
else
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gdWarning( "No corresponding opening tag for closing tag \"%s\" found.",
gd::toQString( name ).toUtf8().data() );
}
}
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void ArticleDom::nextChar()
{
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if ( !*stringPos )
throw eot();
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ch = *stringPos++;
if ( ch == L'\\' )
{
if ( !*stringPos )
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throw eot();
ch = *stringPos++;
escaped = true;
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}
else if ( ch == L'[' && *stringPos == L'[' )
{
++stringPos;
escaped = true;
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}
else if ( ch == L']' && *stringPos == L']' )
{
++stringPos;
escaped = true;
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}
else
escaped = false;
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if( ch == '\n' || ch == '\r' )
lineStartPos = stringPos;
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}
bool ArticleDom::atSignFirstInLine()
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{
// Check if '@' sign is first after '\n', leading spaces and dsl tags
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if( stringPos <= lineStartPos )
return true;
return isAtSignFirst( wstring( lineStartPos ) );
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}
/////////////// DslScanner
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DslScanner::DslScanner( string const & fileName ) :
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encoding( Utf8::Windows1252 ), readBufferPtr( readBuffer ),
readBufferLeft( 0 ), linesRead( 0 )
{
// Since .dz is backwards-compatible with .gz, we use gz- functions to
// read it -- they are much nicer than the dict_data- ones.
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f = gd_gzopen( fileName.c_str() );
if ( !f )
throw exCantOpen( fileName );
// Now try guessing the encoding by reading the first two bytes
unsigned char firstBytes[ 2 ];
if ( gzread( f, firstBytes, sizeof( firstBytes ) ) != sizeof( firstBytes ) )
{
// Apparently the file's too short
gzclose( f );
throw exMalformedDslFile( fileName );
}
bool needExactEncoding = false;
// If the file begins with the dedicated Unicode marker, we just consume
// it. If, on the other hand, it's not, we return the bytes back
if ( firstBytes[ 0 ] == 0xFF && firstBytes[ 1 ] == 0xFE )
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encoding = Utf8::Utf16LE;
else
if ( firstBytes[ 0 ] == 0xFE && firstBytes[ 1 ] == 0xFF )
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encoding = Utf8::Utf16BE;
else
if ( firstBytes[ 0 ] == 0xEF && firstBytes[ 1 ] == 0xBB )
{
// Looks like Utf8, read one more byte
if ( gzread( f, firstBytes, 1 ) != 1 || firstBytes[ 0 ] != 0xBF )
{
// Either the file's too short, or the BOM is weird
gzclose( f );
throw exMalformedDslFile( fileName );
}
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encoding = Utf8::Utf8;
}
else
{
if ( firstBytes[ 0 ] && !firstBytes[ 1 ] )
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encoding = Utf8::Utf16LE;
else
if ( !firstBytes[ 0 ] && firstBytes[ 1 ] )
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encoding = Utf8::Utf16BE;
else
{
// Ok, this doesn't look like 16-bit Unicode. We will start with a
// 8-bit encoding with an intent to find out the exact one from
// the header.
needExactEncoding = true;
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encoding = Utf8::Windows1251;
}
if ( gzrewind( f ) )
{
gzclose( f );
throw exCantOpen( fileName );
}
}
//iconv.reinit( encoding );
codec = QTextCodec::codecForName(getEncodingNameFor(encoding));
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lineFeed=Utf8::initLineFeed(encoding);
// We now can use our own readNextLine() function
wstring str;
size_t offset;
for( ; ; )
{
if ( !readNextLine( str, offset ) )
{
gzclose( f );
throw exMalformedDslFile( fileName );
}
if ( str.empty() || str[ 0 ] != L'#' )
break;
bool isName = false;
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bool isLangFrom = false;
bool isLangTo = false;
bool isSoundDict = false;
if ( !str.compare( 0, 5, GD_NATIVE_TO_WS( L"#NAME" ), 5 ) )
isName = true;
else
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if ( !str.compare( 0, 15, GD_NATIVE_TO_WS( L"#INDEX_LANGUAGE" ), 15 ) )
isLangFrom = true;
else
if ( !str.compare( 0, 18, GD_NATIVE_TO_WS( L"#CONTENTS_LANGUAGE" ), 18 ) )
isLangTo = true;
else
if ( !str.compare( 0, 17, GD_NATIVE_TO_WS( L"#SOUND_DICTIONARY" ), 17 ) )
isSoundDict = true;
else
if ( str.compare( 0, 17, GD_NATIVE_TO_WS( L"#SOURCE_CODE_PAGE" ), 17 ) )
continue;
// Locate the argument
size_t beg = str.find_first_of( L'"' );
if ( beg == wstring::npos )
throw exMalformedDslFile( fileName );
size_t end = str.find_last_of( L'"' );
if ( end == beg )
throw exMalformedDslFile( fileName );
wstring arg( str, beg + 1, end - beg - 1 );
if ( isName )
dictionaryName = arg;
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else if ( isLangFrom )
langFrom = arg;
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else if ( isLangTo )
langTo = arg;
else if ( isSoundDict )
soundDictionary = arg;
else
{
// The encoding
if ( !needExactEncoding )
{
// We don't need that!
GD_FDPRINTF( stderr, "Warning: encoding was specified in a Unicode file, ignoring.\n" );
}
else
if ( !wcscasecmp( arg.c_str(), GD_NATIVE_TO_WS( L"Latin" ) ) )
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encoding = Utf8::Windows1252;
else
if ( !wcscasecmp( arg.c_str(), GD_NATIVE_TO_WS( L"Cyrillic" ) ) )
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encoding = Utf8::Windows1251;
else
if ( !wcscasecmp( arg.c_str(), GD_NATIVE_TO_WS( L"EasternEuropean" ) ) )
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encoding = Utf8::Windows1250;
else
{
gzclose( f );
throw exUnknownCodePage();
}
}
}
// The loop will always end up reading a line which was not a #-directive.
// We need to rewind to that line so readNextLine() would return it again
// next time it's called. To do that, we just use the slow gzseek() and
// empty the read buffer.
if( gzdirect( f ) ) // Without this ZLib 1.2.7 gzread() return 0
gzrewind( f ); // after gzseek() call on uncompressed files
gzseek( f, offset, SEEK_SET );
readBufferPtr = readBuffer;
readBufferLeft = 0;
}
DslScanner::~DslScanner() throw()
{
gzclose( f );
}
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bool DslScanner::readNextLine( wstring & out, size_t & offset, bool only_head_word )
{
offset = (size_t)( gztell( f ) - readBufferLeft/*+pos*/ );
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for(;;)
{
// Check that we have bytes to read
if ( readBufferLeft < 5000 )
{
if ( !gzeof( f ) )
{
// To avoid having to deal with ring logic, we move the remaining bytes
// to the beginning
memmove( readBuffer, readBufferPtr, readBufferLeft );
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// Read some more bytes to readBuffer
int result = gzread( f, readBuffer + readBufferLeft,
sizeof( readBuffer ) - readBufferLeft );
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if ( result == -1 )
throw exCantReadDslFile();
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readBufferPtr = readBuffer;
readBufferLeft += (size_t) result;
}
}
if(readBufferLeft<=0)
return false;
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int pos = Utf8::findFirstLinePosition(readBufferPtr, readBufferLeft, lineFeed.lineFeed, lineFeed.length);
if (pos == -1)
return false;
QString line = codec->toUnicode(readBufferPtr, pos);
line = Utils::rstrip(line);
if (pos > readBufferLeft) {
pos = readBufferLeft;
}
readBufferLeft -= pos;
readBufferPtr += pos;
linesRead++;
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if(only_head_word &&( line.isEmpty()||line.at(0).isSpace()))
continue;
#ifdef __WIN32
out=line.toStdU32String();
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#else
out=line.toStdWString();
#endif
return true;
}
}
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bool DslScanner::readNextLineWithoutComments( wstring & out, size_t & offset , bool only_headword)
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{
wstring str;
bool commentToNextLine = false;
size_t currentOffset;
out.erase();
offset = 0;
do
{
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bool b = readNextLine( str, currentOffset, only_headword );
if( offset == 0 )
offset = currentOffset;
if( !b )
return false;
stripComments( str, commentToNextLine);
out += str;
}
while( commentToNextLine );
return true;
}
/////////////// DslScanner
void processUnsortedParts( wstring & str, bool strip )
{
int refCount = 0;
size_t startPos = 0;
for( size_t x = 0; x < str.size(); )
{
wchar ch = str[ x ];
if ( ch == L'\\' )
{
// Escape code
x += 2;
continue;
}
if ( ch == '{' )
{
++refCount;
if ( !strip )
{
// Just remove it and continue
str.erase( x, 1 );
continue;
}
else
if ( refCount == 1 )
{
// First opening brace. Save this position, we will be erasing the
// whole range when we encounter the last closing brace.
startPos = x;
}
}
else
if ( ch == '}' )
{
--refCount;
if ( refCount < 0 )
{
GD_FDPRINTF( stderr, "Warning: an unmatched closing brace was encountered.\n" );
refCount = 0;
// But we remove that thing either way
str.erase( x, 1 );
continue;
}
if ( !strip )
{
// Just remove it and continue
str.erase( x, 1 );
continue;
}
else
if ( !refCount )
{
// The final closing brace -- we can erase the whole range now.
str.erase( startPos, x - startPos + 1 );
x = startPos;
continue;
}
}
++x;
}
if ( strip && refCount )
{
GD_FDPRINTF( stderr, "Warning: unclosed brace(s) encountered.\n" );
str.erase( startPos );
}
}
void expandOptionalParts( wstring & str, list< wstring > * result,
size_t x, bool inside_recurse )
{
list< wstring > expanded;
list< wstring > * headwords;
headwords = inside_recurse ? result : &expanded;
for( ; x < str.size(); )
{
wchar ch = str[ x ];
if ( ch == L'\\' )
{
// Escape code
x += 2;
}
else
if ( ch == L'(' )
{
// First, handle the case where this block is removed
{
int refCount = 1;
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for( size_t y = x + 1; y < str.size(); ++y )
{
wchar ch = str[ y ];
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if ( ch == L'\\' )
{
// Escape code
++y;
}
else
if ( ch == L'(' )
++refCount;
else
if ( ch == L')' )
{
if ( !--refCount )
{
// Now that the closing parenthesis is found,
// cut the whole thing out and be done.
if ( y != x + 1 ) // Only do for non-empty cases
{
wstring removed( str, 0, x );
removed.append( str, y + 1, str.size() - y - 1 );
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expandOptionalParts( removed, headwords, x, true );
}
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break;
}
}
}
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if ( refCount && x != str.size() - 1 )
{
// Closing paren not found? Chop it.
wstring removed( str, 0, x );
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// Limit the amount of results to avoid excessive resource consumption
if ( headwords->size() < 32 )
headwords->push_back( removed );
else
{
if( !inside_recurse )
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{
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result->splice(result->end(),expanded);
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}
return;
}
}
}
// Now, handling the case where it is kept -- we just erase
// the paren and go on
str.erase( x, 1 );
}
else
if ( ch == L')' )
{
// Closing paren doesn't mean much -- just erase it
str.erase( x, 1 );
}
else
++x;
}
// Limit the amount of results to avoid excessive resource consumption
if ( headwords->size() < 32 )
headwords->push_back( str );
if (!inside_recurse)
{
2021-10-23 04:05:16 +00:00
result->splice(result->end(),expanded);
}
}
static const wstring openBraces( GD_NATIVE_TO_WS( L"{{" ) );
static const wstring closeBraces( GD_NATIVE_TO_WS( L"}}" ) );
void stripComments( wstring & str, bool & nextLine )
{
string::size_type n = 0, n2 = 0;
for( ; ; )
{
if( nextLine )
{
n = str.find( closeBraces, n2 );
if( n == string::npos )
{
str.erase( n2, n );
return;
}
str.erase( n2, n - n2 + 2 );
nextLine = false;
}
n = str.find( openBraces, n2 );
if( n == string::npos )
return;
nextLine = true;
n2 = n;
}
}
void expandTildes( wstring & str, wstring const & tildeReplacement )
{
wstring tildeValue = Folding::trimWhitespace( tildeReplacement );
for( size_t x = 0; x < str.size(); )
if ( str[ x ] == L'\\' )
x+=2;
else
if ( str[ x ] == L'~' )
{
if( x > 0 && str[ x - 1 ] == '^' && ( x < 2 || str[ x - 2 ] != '\\' ) )
{
str.replace( x - 1, 2, tildeValue );
2012-11-29 12:56:55 +00:00
str[ x - 1 ] = QChar( str[ x - 1 ] ).isUpper() ? QChar::toLower( (uint)str[ x - 1 ] )
: QChar::toUpper( (uint)str[ x - 1 ] );
x = x - 1 + tildeValue.size();
}
else
{
str.replace( x, 1, tildeValue );
x += tildeValue.size();
}
}
else
++x;
}
void unescapeDsl( wstring & str )
{
for( size_t x = 0; x < str.size(); ++x )
if ( str[ x ] == L'\\' )
str.erase( x, 1 ); // ++x would skip the next char without processing it
}
void normalizeHeadword( wstring & str )
{
for( size_t x = str.size(); x-- > 1; ) // >1 -- Don't test the first char
{
if ( str[ x ] == L' ' )
{
size_t y;
for( y = x; y && ( str[ y - 1 ] == L' ' ) ; --y );
if ( y != x )
{
// Remove extra spaces
str.erase( y, x - y );
x = y;
}
}
}
if( !str.empty() && str[ str.size() - 1 ] == L' ' )
str.erase( str.size() - 1, 1 );
2014-04-24 18:56:47 +00:00
if( !str.empty() && str[ 0 ] == L' ' )
str.erase( 0, 1 );
}
namespace
{
void cutEnding( wstring & where, wstring const & ending )
{
if ( where.size() > ending.size() &&
where.compare( where.size() - ending.size(),
ending.size(), ending ) == 0 )
where.erase( where.size() - ending.size() );
}
}
quint32 dslLanguageToId( wstring const & name )
{
static wstring newSp( GD_NATIVE_TO_WS( L"newspelling" ) );
static wstring st( GD_NATIVE_TO_WS( L"standard" ) );
static wstring ms( GD_NATIVE_TO_WS( L"modernsort" ) );
static wstring ts( GD_NATIVE_TO_WS( L"traditionalsort" ) );
static wstring prc( GD_NATIVE_TO_WS( L"prc" ) );
// Any of those endings are to be removed
wstring nameStripped = Folding::apply( name );
cutEnding( nameStripped, newSp );
cutEnding( nameStripped, st );
cutEnding( nameStripped, ms );
cutEnding( nameStripped, ts );
cutEnding( nameStripped, prc );
return LangCoder::findIdForLanguage( nameStripped );
}
}
}