diff options
| author | Vladimir Glazunov <vg@openoffice.org> | 2010-11-01 17:13:34 +0100 |
|---|---|---|
| committer | Vladimir Glazunov <vg@openoffice.org> | 2010-11-01 17:13:34 +0100 |
| commit | 4d16103922c1978cd0e60e379d61b31cd8976d3a (patch) | |
| tree | 01da0f3913bbdc078f937c2fabf38c964e773614 | |
| parent | 66a8d1a739c374919de8f0fede6971c024ae0800 (diff) | |
| parent | 11e3f9e2a64c3ba526e2fb3d223675a83ec971a5 (diff) | |
CWS-TOOLING: integrate CWS pdfextfix04ooo/DEV300_m92
| -rw-r--r--[-rwxr-xr-x] | sdext/source/pdfimport/config/description.xml | 2 | ||||
| -rw-r--r-- | sdext/source/pdfimport/inc/treevisitorfactory.hxx | 2 | ||||
| -rw-r--r-- | sdext/source/pdfimport/tree/drawtreevisiting.cxx | 61 | ||||
| -rw-r--r-- | sdext/source/pdfimport/tree/drawtreevisiting.hxx | 15 | ||||
| -rw-r--r-- | sdext/source/pdfimport/tree/pdfiprocessor.cxx | 415 | ||||
| -rw-r--r-- | sdext/source/pdfimport/tree/pdfiprocessor.hxx | 9 | ||||
| -rw-r--r-- | sdext/source/pdfimport/tree/treevisitorfactory.cxx | 14 | ||||
| -rw-r--r-- | xpdf/makefile.mk | 2 | ||||
| -rw-r--r-- | xpdf/xpdf-3.02-sec.patch | 29 |
9 files changed, 509 insertions, 40 deletions
diff --git a/sdext/source/pdfimport/config/description.xml b/sdext/source/pdfimport/config/description.xml index 726b104..4810fd6 100755..100644 --- a/sdext/source/pdfimport/config/description.xml +++ b/sdext/source/pdfimport/config/description.xml @@ -16,7 +16,7 @@ </simple-license> </registration> - <version value="1.0.3" /> + <version value="1.0.4" /> <platform value="UPDATED_SUPPORTED_PLATFORM" /> diff --git a/sdext/source/pdfimport/inc/treevisitorfactory.hxx b/sdext/source/pdfimport/inc/treevisitorfactory.hxx index b805e66..52300ce 100644 --- a/sdext/source/pdfimport/inc/treevisitorfactory.hxx +++ b/sdext/source/pdfimport/inc/treevisitorfactory.hxx @@ -53,7 +53,7 @@ namespace pdfi virtual boost::shared_ptr<ElementTreeVisitor> createStyleCollectingVisitor( StyleContainer&, PDFIProcessor&) const = 0; /// Create visitor that emits tree to an output target - virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext&) const = 0; + virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext&, PDFIProcessor&) const = 0; }; typedef boost::shared_ptr<TreeVisitorFactory> TreeVisitorFactorySharedPtr; diff --git a/sdext/source/pdfimport/tree/drawtreevisiting.cxx b/sdext/source/pdfimport/tree/drawtreevisiting.cxx index 134ee57..5c8d359 100644 --- a/sdext/source/pdfimport/tree/drawtreevisiting.cxx +++ b/sdext/source/pdfimport/tree/drawtreevisiting.cxx @@ -36,13 +36,15 @@ #include "drawtreevisiting.hxx" #include "genericelements.hxx" -#include <basegfx/polygon/b2dpolypolygontools.hxx> -#include <basegfx/range/b2drange.hxx> +#include "basegfx/polygon/b2dpolypolygontools.hxx" +#include "basegfx/range/b2drange.hxx" -#include <com/sun/star/i18n/XBreakIterator.hpp> -#include <com/sun/star/lang/XMultiServiceFactory.hpp> +#include "com/sun/star/i18n/XBreakIterator.hpp" +#include "com/sun/star/lang/XMultiServiceFactory.hpp" #include "comphelper/processfactory.hxx" -#include <com/sun/star/i18n/ScriptType.hpp> +#include "com/sun/star/i18n/ScriptType.hpp" +#include "com/sun/star/i18n/DirectionProperty.hpp" + #include <string.h> using namespace ::com::sun::star; @@ -79,6 +81,18 @@ const ::com::sun::star::uno::Reference< ::com::sun::star::i18n::XBreakIterator > return mxBreakIter; } +const ::com::sun::star::uno::Reference< ::com::sun::star::i18n::XCharacterClassification >& DrawXmlEmitter::GetCharacterClassification() +{ + if ( !mxCharClass.is() ) + { + Reference< XComponentContext > xContext( m_rEmitContext.m_xContext, uno::UNO_SET_THROW ); + Reference< XMultiComponentFactory > xMSF( xContext->getServiceManager(), uno::UNO_SET_THROW ); + Reference < XInterface > xInterface = xMSF->createInstanceWithContext(::rtl::OUString::createFromAscii("com.sun.star.i18n.CharacterClassification"), xContext); + mxCharClass = uno::Reference< i18n::XCharacterClassification >( xInterface, uno::UNO_QUERY ); + } + return mxCharClass; +} + void DrawXmlEmitter::visit( HyperlinkElement& elem, const std::list< Element* >::const_iterator& ) { if( elem.Children.empty() ) @@ -119,30 +133,25 @@ void DrawXmlEmitter::visit( TextElement& elem, const std::list< Element* >::cons rtl::OUString str(elem.Text.getStr()); - // Check for CTL - bool isComplex = false; - for(int i=0; i< elem.Text.getLength(); i++) + // Check for RTL + bool isRTL = false; + Reference< i18n::XCharacterClassification > xCC( GetCharacterClassification() ); + if( xCC.is() ) { - sal_Int16 nType = GetBreakIterator()->getScriptType( str, i + 1); - if (nType == ::com::sun::star::i18n::ScriptType::COMPLEX) - isComplex = true; - } - - #if 0 - // FIXME: need to have a service to do this mirroring - if (isComplex) // If so, reverse string - { - rtl::OUString flippedStr(RTL_CONSTASCII_USTRINGPARAM( "" )); - for(int i = str.getLength() - 1; i >= 0; i--) + for(int i=1; i< elem.Text.getLength(); i++) { - sal_Unicode cChar = str[ i ]; - cChar = static_cast<sal_Unicode>(GetMirroredChar( cChar )); - rtl::OUString uC(cChar); - flippedStr += uC; - } - str = flippedStr; + sal_Int16 nType = xCC->getCharacterDirection( str, i ); + if ( nType == ::com::sun::star::i18n::DirectionProperty_RIGHT_TO_LEFT || + nType == ::com::sun::star::i18n::DirectionProperty_RIGHT_TO_LEFT_ARABIC || + nType == ::com::sun::star::i18n::DirectionProperty_RIGHT_TO_LEFT_EMBEDDING || + nType == ::com::sun::star::i18n::DirectionProperty_RIGHT_TO_LEFT_OVERRIDE + ) + isRTL = true; + } } - #endif + + if (isRTL) // If so, reverse string + str = m_rProcessor.mirrorString( str ); m_rEmitContext.rEmitter.beginTag( "text:span", aProps ); diff --git a/sdext/source/pdfimport/tree/drawtreevisiting.hxx b/sdext/source/pdfimport/tree/drawtreevisiting.hxx index 360c156..9931d4b 100644 --- a/sdext/source/pdfimport/tree/drawtreevisiting.hxx +++ b/sdext/source/pdfimport/tree/drawtreevisiting.hxx @@ -29,9 +29,11 @@ #define INCLUDED_PDFI_DRAWTREEVISITING_HXX #include "treevisiting.hxx" -#include <com/sun/star/i18n/XBreakIterator.hpp> -#include <com/sun/star/lang/XMultiServiceFactory.hpp> -#include <com/sun/star/uno/XComponentContext.hpp> + +#include "com/sun/star/i18n/XBreakIterator.hpp" +#include "com/sun/star/i18n/XCharacterClassification.hpp" +#include "com/sun/star/lang/XMultiServiceFactory.hpp" +#include "com/sun/star/uno/XComponentContext.hpp" namespace pdfi { @@ -89,6 +91,9 @@ namespace pdfi ::com::sun::star::uno::Reference< ::com::sun::star::lang::XMultiServiceFactory > xFactory; ::com::sun::star::uno::Reference< ::com::sun::star::uno::XComponentContext > xCtx; ::com::sun::star::uno::Reference< ::com::sun::star::i18n::XBreakIterator > mxBreakIter; + ::com::sun::star::uno::Reference< ::com::sun::star::i18n::XCharacterClassification > mxCharClass; + + PDFIProcessor& m_rProcessor; EmitContext& m_rEmitContext ; /// writes Impress doc when false @@ -100,8 +105,10 @@ namespace pdfi public: const ::com::sun::star::uno::Reference< ::com::sun::star::i18n::XBreakIterator >& GetBreakIterator(); + const ::com::sun::star::uno::Reference< ::com::sun::star::i18n::XCharacterClassification >& GetCharacterClassification(); enum DocType{ DRAW_DOC, IMPRESS_DOC }; - explicit DrawXmlEmitter(EmitContext& rEmitContext, DocType eDocType) : + explicit DrawXmlEmitter(EmitContext& rEmitContext, DocType eDocType, PDFIProcessor& rProc ) : + m_rProcessor( rProc ), m_rEmitContext(rEmitContext), m_bWriteDrawDocument(eDocType==DRAW_DOC) {} diff --git a/sdext/source/pdfimport/tree/pdfiprocessor.cxx b/sdext/source/pdfimport/tree/pdfiprocessor.cxx index a1db1e2..6c2e410 100644 --- a/sdext/source/pdfimport/tree/pdfiprocessor.cxx +++ b/sdext/source/pdfimport/tree/pdfiprocessor.cxx @@ -87,7 +87,8 @@ namespace pdfi m_fWordSpace(0.0), m_bIsWhiteSpaceInLine( false ), m_xStatusIndicator( xStat ), - m_bHaveTextOnDocLevel(false) + m_bHaveTextOnDocLevel(false), + m_bMirrorMapperTried(false) { FontAttributes aDefFont; aDefFont.familyName = USTR("Helvetica"); @@ -847,7 +848,7 @@ void PDFIProcessor::emit( XmlEmitter& rEmitter, EmitContext aContext( rEmitter, aStyles, m_aImages, *this, m_xStatusIndicator, m_xContext ); ElementTreeVisitorSharedPtr aEmittingVisitor( - rVisitorFactory.createEmittingVisitor(aContext)); + rVisitorFactory.createEmittingVisitor(aContext, *this)); PropertyMap aProps; // document prolog @@ -1045,5 +1046,415 @@ void PDFIProcessor::sortElements( Element* pEle, bool bDeep ) // over and out. return outRect; } + +// helper method: get a mirrored string +rtl::OUString PDFIProcessor::mirrorString( const rtl::OUString& i_rString ) +{ + if( ! m_xMirrorMapper.is() && ! m_bMirrorMapperTried ) + { + m_bMirrorMapperTried = true; + uno::Reference< lang::XMultiComponentFactory > xMSF( m_xContext->getServiceManager(), uno::UNO_SET_THROW ); + uno::Reference < uno::XInterface > xInterface = xMSF->createInstanceWithContext(::rtl::OUString::createFromAscii("com.sun.star.awt.StringMirror"), m_xContext); + m_xMirrorMapper = uno::Reference< util::XStringMapping >( xInterface, uno::UNO_QUERY ); + #if OSL_DEBUG_LEVEL > 1 + if( m_xMirrorMapper.is() ) + fprintf( stderr, "using mirror mapper service\n" ); + #endif + } + if( m_xMirrorMapper.is() ) + { + uno::Sequence< rtl::OUString > aSeq( 1 ); + aSeq.getArray()[0] = i_rString; + m_xMirrorMapper->mapStrings( aSeq ); + return aSeq[0]; + } + + prepareMirrorMap(); + sal_Int32 nLen = i_rString.getLength(); + rtl::OUStringBuffer aRet( nLen ); + for(int i = nLen - 1; i >= 0; i--) + { + sal_Unicode cChar = i_rString[ i ]; + aRet.append( m_aMirrorMap[cChar] ); + } + return aRet.makeStringAndClear(); +} + +void PDFIProcessor::prepareMirrorMap() +{ + if( m_aMirrorMap.empty() ) + { + #if OSL_DEBUG_LEVEL > 1 + fprintf( stderr, "falling back to static mirror list\n" ); + #endif + + m_aMirrorMap.reserve( 0x10000 ); + for( int i = 0; i < 0x10000; i++ ) + m_aMirrorMap.push_back( sal_Unicode(i) ); + + m_aMirrorMap[ 0x0028 ] = 0x0029; // LEFT PARENTHESIS + m_aMirrorMap[ 0x0029 ] = 0x0028; // RIGHT PARENTHESIS + m_aMirrorMap[ 0x003C ] = 0x003E; // LESS-THAN SIGN + m_aMirrorMap[ 0x003E ] = 0x003C; // GREATER-THAN SIGN + m_aMirrorMap[ 0x005B ] = 0x005D; // LEFT SQUARE BRACKET + m_aMirrorMap[ 0x005D ] = 0x005B; // RIGHT SQUARE BRACKET + m_aMirrorMap[ 0x007B ] = 0x007D; // LEFT CURLY BRACKET + m_aMirrorMap[ 0x007D ] = 0x007B; // RIGHT CURLY BRACKET + m_aMirrorMap[ 0x00AB ] = 0x00BB; // LEFT-POINTING DOUBLE ANGLE QUOTATION MARK + m_aMirrorMap[ 0x00BB ] = 0x00AB; // RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK + m_aMirrorMap[ 0x0F3A ] = 0x0F3B; // TIBETAN MARK GUG RTAGS GYON + m_aMirrorMap[ 0x0F3B ] = 0x0F3A; // TIBETAN MARK GUG RTAGS GYAS + m_aMirrorMap[ 0x0F3C ] = 0x0F3D; // TIBETAN MARK ANG KHANG GYON + m_aMirrorMap[ 0x0F3D ] = 0x0F3C; // TIBETAN MARK ANG KHANG GYAS + m_aMirrorMap[ 0x169B ] = 0x169C; // OGHAM FEATHER MARK + m_aMirrorMap[ 0x169C ] = 0x169B; // OGHAM REVERSED FEATHER MARK + m_aMirrorMap[ 0x2039 ] = 0x203A; // SINGLE LEFT-POINTING ANGLE QUOTATION MARK + m_aMirrorMap[ 0x203A ] = 0x2039; // SINGLE RIGHT-POINTING ANGLE QUOTATION MARK + m_aMirrorMap[ 0x2045 ] = 0x2046; // LEFT SQUARE BRACKET WITH QUILL + m_aMirrorMap[ 0x2046 ] = 0x2045; // RIGHT SQUARE BRACKET WITH QUILL + m_aMirrorMap[ 0x207D ] = 0x207E; // SUPERSCRIPT LEFT PARENTHESIS + m_aMirrorMap[ 0x207E ] = 0x207D; // SUPERSCRIPT RIGHT PARENTHESIS + m_aMirrorMap[ 0x208D ] = 0x208E; // SUBSCRIPT LEFT PARENTHESIS + m_aMirrorMap[ 0x208E ] = 0x208D; // SUBSCRIPT RIGHT PARENTHESIS + m_aMirrorMap[ 0x2208 ] = 0x220B; // ELEMENT OF + m_aMirrorMap[ 0x2209 ] = 0x220C; // NOT AN ELEMENT OF + m_aMirrorMap[ 0x220A ] = 0x220D; // SMALL ELEMENT OF + m_aMirrorMap[ 0x220B ] = 0x2208; // CONTAINS AS MEMBER + m_aMirrorMap[ 0x220C ] = 0x2209; // DOES NOT CONTAIN AS MEMBER + m_aMirrorMap[ 0x220D ] = 0x220A; // SMALL CONTAINS AS MEMBER + m_aMirrorMap[ 0x2215 ] = 0x29F5; // DIVISION SLASH + m_aMirrorMap[ 0x223C ] = 0x223D; // TILDE OPERATOR + m_aMirrorMap[ 0x223D ] = 0x223C; // REVERSED TILDE + m_aMirrorMap[ 0x2243 ] = 0x22CD; // ASYMPTOTICALLY EQUAL TO + m_aMirrorMap[ 0x2252 ] = 0x2253; // APPROXIMATELY EQUAL TO OR THE IMAGE OF + m_aMirrorMap[ 0x2253 ] = 0x2252; // IMAGE OF OR APPROXIMATELY EQUAL TO + m_aMirrorMap[ 0x2254 ] = 0x2255; // COLON EQUALS + m_aMirrorMap[ 0x2255 ] = 0x2254; // EQUALS COLON + m_aMirrorMap[ 0x2264 ] = 0x2265; // LESS-THAN OR EQUAL TO + m_aMirrorMap[ 0x2265 ] = 0x2264; // GREATER-THAN OR EQUAL TO + m_aMirrorMap[ 0x2266 ] = 0x2267; // LESS-THAN OVER EQUAL TO + m_aMirrorMap[ 0x2267 ] = 0x2266; // GREATER-THAN OVER EQUAL TO + m_aMirrorMap[ 0x2268 ] = 0x2269; // [BEST FIT] LESS-THAN BUT NOT EQUAL TO + m_aMirrorMap[ 0x2269 ] = 0x2268; // [BEST FIT] GREATER-THAN BUT NOT EQUAL TO + m_aMirrorMap[ 0x226A ] = 0x226B; // MUCH LESS-THAN + m_aMirrorMap[ 0x226B ] = 0x226A; // MUCH GREATER-THAN + m_aMirrorMap[ 0x226E ] = 0x226F; // [BEST FIT] NOT LESS-THAN + m_aMirrorMap[ 0x226F ] = 0x226E; // [BEST FIT] NOT GREATER-THAN + m_aMirrorMap[ 0x2270 ] = 0x2271; // [BEST FIT] NEITHER LESS-THAN NOR EQUAL TO + m_aMirrorMap[ 0x2271 ] = 0x2270; // [BEST FIT] NEITHER GREATER-THAN NOR EQUAL TO + m_aMirrorMap[ 0x2272 ] = 0x2273; // [BEST FIT] LESS-THAN OR EQUIVALENT TO + m_aMirrorMap[ 0x2273 ] = 0x2272; // [BEST FIT] GREATER-THAN OR EQUIVALENT TO + m_aMirrorMap[ 0x2274 ] = 0x2275; // [BEST FIT] NEITHER LESS-THAN NOR EQUIVALENT TO + m_aMirrorMap[ 0x2275 ] = 0x2274; // [BEST FIT] NEITHER GREATER-THAN NOR EQUIVALENT TO + m_aMirrorMap[ 0x2276 ] = 0x2277; // LESS-THAN OR GREATER-THAN + m_aMirrorMap[ 0x2277 ] = 0x2276; // GREATER-THAN OR LESS-THAN + m_aMirrorMap[ 0x2278 ] = 0x2279; // [BEST FIT] NEITHER LESS-THAN NOR GREATER-THAN + m_aMirrorMap[ 0x2279 ] = 0x2278; // [BEST FIT] NEITHER GREATER-THAN NOR LESS-THAN + m_aMirrorMap[ 0x227A ] = 0x227B; // PRECEDES + m_aMirrorMap[ 0x227B ] = 0x227A; // SUCCEEDS + m_aMirrorMap[ 0x227C ] = 0x227D; // PRECEDES OR EQUAL TO + m_aMirrorMap[ 0x227D ] = 0x227C; // SUCCEEDS OR EQUAL TO + m_aMirrorMap[ 0x227E ] = 0x227F; // [BEST FIT] PRECEDES OR EQUIVALENT TO + m_aMirrorMap[ 0x227F ] = 0x227E; // [BEST FIT] SUCCEEDS OR EQUIVALENT TO + m_aMirrorMap[ 0x2280 ] = 0x2281; // [BEST FIT] DOES NOT PRECEDE + m_aMirrorMap[ 0x2281 ] = 0x2280; // [BEST FIT] DOES NOT SUCCEED + m_aMirrorMap[ 0x2282 ] = 0x2283; // SUBSET OF + m_aMirrorMap[ 0x2283 ] = 0x2282; // SUPERSET OF + m_aMirrorMap[ 0x2284 ] = 0x2285; // [BEST FIT] NOT A SUBSET OF + m_aMirrorMap[ 0x2285 ] = 0x2284; // [BEST FIT] NOT A SUPERSET OF + m_aMirrorMap[ 0x2286 ] = 0x2287; // SUBSET OF OR EQUAL TO + m_aMirrorMap[ 0x2287 ] = 0x2286; // SUPERSET OF OR EQUAL TO + m_aMirrorMap[ 0x2288 ] = 0x2289; // [BEST FIT] NEITHER A SUBSET OF NOR EQUAL TO + m_aMirrorMap[ 0x2289 ] = 0x2288; // [BEST FIT] NEITHER A SUPERSET OF NOR EQUAL TO + m_aMirrorMap[ 0x228A ] = 0x228B; // [BEST FIT] SUBSET OF WITH NOT EQUAL TO + m_aMirrorMap[ 0x228B ] = 0x228A; // [BEST FIT] SUPERSET OF WITH NOT EQUAL TO + m_aMirrorMap[ 0x228F ] = 0x2290; // SQUARE IMAGE OF + m_aMirrorMap[ 0x2290 ] = 0x228F; // SQUARE ORIGINAL OF + m_aMirrorMap[ 0x2291 ] = 0x2292; // SQUARE IMAGE OF OR EQUAL TO + m_aMirrorMap[ 0x2292 ] = 0x2291; // SQUARE ORIGINAL OF OR EQUAL TO + m_aMirrorMap[ 0x2298 ] = 0x29B8; // CIRCLED DIVISION SLASH + m_aMirrorMap[ 0x22A2 ] = 0x22A3; // RIGHT TACK + m_aMirrorMap[ 0x22A3 ] = 0x22A2; // LEFT TACK + m_aMirrorMap[ 0x22A6 ] = 0x2ADE; // ASSERTION + m_aMirrorMap[ 0x22A8 ] = 0x2AE4; // TRUE + m_aMirrorMap[ 0x22A9 ] = 0x2AE3; // FORCES + m_aMirrorMap[ 0x22AB ] = 0x2AE5; // DOUBLE VERTICAL BAR DOUBLE RIGHT TURNSTILE + m_aMirrorMap[ 0x22B0 ] = 0x22B1; // PRECEDES UNDER RELATION + m_aMirrorMap[ 0x22B1 ] = 0x22B0; // SUCCEEDS UNDER RELATION + m_aMirrorMap[ 0x22B2 ] = 0x22B3; // NORMAL SUBGROUP OF + m_aMirrorMap[ 0x22B3 ] = 0x22B2; // CONTAINS AS NORMAL SUBGROUP + m_aMirrorMap[ 0x22B4 ] = 0x22B5; // NORMAL SUBGROUP OF OR EQUAL TO + m_aMirrorMap[ 0x22B5 ] = 0x22B4; // CONTAINS AS NORMAL SUBGROUP OR EQUAL TO + m_aMirrorMap[ 0x22B6 ] = 0x22B7; // ORIGINAL OF + m_aMirrorMap[ 0x22B7 ] = 0x22B6; // IMAGE OF + m_aMirrorMap[ 0x22C9 ] = 0x22CA; // LEFT NORMAL FACTOR SEMIDIRECT PRODUCT + m_aMirrorMap[ 0x22CA ] = 0x22C9; // RIGHT NORMAL FACTOR SEMIDIRECT PRODUCT + m_aMirrorMap[ 0x22CB ] = 0x22CC; // LEFT SEMIDIRECT PRODUCT + m_aMirrorMap[ 0x22CC ] = 0x22CB; // RIGHT SEMIDIRECT PRODUCT + m_aMirrorMap[ 0x22CD ] = 0x2243; // REVERSED TILDE EQUALS + m_aMirrorMap[ 0x22D0 ] = 0x22D1; // DOUBLE SUBSET + m_aMirrorMap[ 0x22D1 ] = 0x22D0; // DOUBLE SUPERSET + m_aMirrorMap[ 0x22D6 ] = 0x22D7; // LESS-THAN WITH DOT + m_aMirrorMap[ 0x22D7 ] = 0x22D6; // GREATER-THAN WITH DOT + m_aMirrorMap[ 0x22D8 ] = 0x22D9; // VERY MUCH LESS-THAN + m_aMirrorMap[ 0x22D9 ] = 0x22D8; // VERY MUCH GREATER-THAN + m_aMirrorMap[ 0x22DA ] = 0x22DB; // LESS-THAN EQUAL TO OR GREATER-THAN + m_aMirrorMap[ 0x22DB ] = 0x22DA; // GREATER-THAN EQUAL TO OR LESS-THAN + m_aMirrorMap[ 0x22DC ] = 0x22DD; // EQUAL TO OR LESS-THAN + m_aMirrorMap[ 0x22DD ] = 0x22DC; // EQUAL TO OR GREATER-THAN + m_aMirrorMap[ 0x22DE ] = 0x22DF; // EQUAL TO OR PRECEDES + m_aMirrorMap[ 0x22DF ] = 0x22DE; // EQUAL TO OR SUCCEEDS + m_aMirrorMap[ 0x22E0 ] = 0x22E1; // [BEST FIT] DOES NOT PRECEDE OR EQUAL + m_aMirrorMap[ 0x22E1 ] = 0x22E0; // [BEST FIT] DOES NOT SUCCEED OR EQUAL + m_aMirrorMap[ 0x22E2 ] = 0x22E3; // [BEST FIT] NOT SQUARE IMAGE OF OR EQUAL TO + m_aMirrorMap[ 0x22E3 ] = 0x22E2; // [BEST FIT] NOT SQUARE ORIGINAL OF OR EQUAL TO + m_aMirrorMap[ 0x22E4 ] = 0x22E5; // [BEST FIT] SQUARE IMAGE OF OR NOT EQUAL TO + m_aMirrorMap[ 0x22E5 ] = 0x22E4; // [BEST FIT] SQUARE ORIGINAL OF OR NOT EQUAL TO + m_aMirrorMap[ 0x22E6 ] = 0x22E7; // [BEST FIT] LESS-THAN BUT NOT EQUIVALENT TO + m_aMirrorMap[ 0x22E7 ] = 0x22E6; // [BEST FIT] GREATER-THAN BUT NOT EQUIVALENT TO + m_aMirrorMap[ 0x22E8 ] = 0x22E9; // [BEST FIT] PRECEDES BUT NOT EQUIVALENT TO + m_aMirrorMap[ 0x22E9 ] = 0x22E8; // [BEST FIT] SUCCEEDS BUT NOT EQUIVALENT TO + m_aMirrorMap[ 0x22EA ] = 0x22EB; // [BEST FIT] NOT NORMAL SUBGROUP OF + m_aMirrorMap[ 0x22EB ] = 0x22EA; // [BEST FIT] DOES NOT CONTAIN AS NORMAL SUBGROUP + m_aMirrorMap[ 0x22EC ] = 0x22ED; // [BEST FIT] NOT NORMAL SUBGROUP OF OR EQUAL TO + m_aMirrorMap[ 0x22ED ] = 0x22EC; // [BEST FIT] DOES NOT CONTAIN AS NORMAL SUBGROUP OR EQUAL + m_aMirrorMap[ 0x22F0 ] = 0x22F1; // UP RIGHT DIAGONAL ELLIPSIS + m_aMirrorMap[ 0x22F1 ] = 0x22F0; // DOWN RIGHT DIAGONAL ELLIPSIS + m_aMirrorMap[ 0x22F2 ] = 0x22FA; // ELEMENT OF WITH LONG HORIZONTAL STROKE + m_aMirrorMap[ 0x22F3 ] = 0x22FB; // ELEMENT OF WITH VERTICAL BAR AT END OF HORIZONTAL STROKE + m_aMirrorMap[ 0x22F4 ] = 0x22FC; // SMALL ELEMENT OF WITH VERTICAL BAR AT END OF HORIZONTAL STROKE + m_aMirrorMap[ 0x22F6 ] = 0x22FD; // ELEMENT OF WITH OVERBAR + m_aMirrorMap[ 0x22F7 ] = 0x22FE; // SMALL ELEMENT OF WITH OVERBAR + m_aMirrorMap[ 0x22FA ] = 0x22F2; // CONTAINS WITH LONG HORIZONTAL STROKE + m_aMirrorMap[ 0x22FB ] = 0x22F3; // CONTAINS WITH VERTICAL BAR AT END OF HORIZONTAL STROKE + m_aMirrorMap[ 0x22FC ] = 0x22F4; // SMALL CONTAINS WITH VERTICAL BAR AT END OF HORIZONTAL STROKE + m_aMirrorMap[ 0x22FD ] = 0x22F6; // CONTAINS WITH OVERBAR + m_aMirrorMap[ 0x22FE ] = 0x22F7; // SMALL CONTAINS WITH OVERBAR + m_aMirrorMap[ 0x2308 ] = 0x2309; // LEFT CEILING + m_aMirrorMap[ 0x2309 ] = 0x2308; // RIGHT CEILING + m_aMirrorMap[ 0x230A ] = 0x230B; // LEFT FLOOR + m_aMirrorMap[ 0x230B ] = 0x230A; // RIGHT FLOOR + m_aMirrorMap[ 0x2329 ] = 0x232A; // LEFT-POINTING ANGLE BRACKET + m_aMirrorMap[ 0x232A ] = 0x2329; // RIGHT-POINTING ANGLE BRACKET + m_aMirrorMap[ 0x2768 ] = 0x2769; // MEDIUM LEFT PARENTHESIS ORNAMENT + m_aMirrorMap[ 0x2769 ] = 0x2768; // MEDIUM RIGHT PARENTHESIS ORNAMENT + m_aMirrorMap[ 0x276A ] = 0x276B; // MEDIUM FLATTENED LEFT PARENTHESIS ORNAMENT + m_aMirrorMap[ 0x276B ] = 0x276A; // MEDIUM FLATTENED RIGHT PARENTHESIS ORNAMENT + m_aMirrorMap[ 0x276C ] = 0x276D; // MEDIUM LEFT-POINTING ANGLE BRACKET ORNAMENT + m_aMirrorMap[ 0x276D ] = 0x276C; // MEDIUM RIGHT-POINTING ANGLE BRACKET ORNAMENT + m_aMirrorMap[ 0x276E ] = 0x276F; // HEAVY LEFT-POINTING ANGLE QUOTATION MARK ORNAMENT + m_aMirrorMap[ 0x276F ] = 0x276E; // HEAVY RIGHT-POINTING ANGLE QUOTATION MARK ORNAMENT + m_aMirrorMap[ 0x2770 ] = 0x2771; // HEAVY LEFT-POINTING ANGLE BRACKET ORNAMENT + m_aMirrorMap[ 0x2771 ] = 0x2770; // HEAVY RIGHT-POINTING ANGLE BRACKET ORNAMENT + m_aMirrorMap[ 0x2772 ] = 0x2773; // LIGHT LEFT TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x2773 ] = 0x2772; // LIGHT RIGHT TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x2774 ] = 0x2775; // MEDIUM LEFT CURLY BRACKET ORNAMENT + m_aMirrorMap[ 0x2775 ] = 0x2774; // MEDIUM RIGHT CURLY BRACKET ORNAMENT + m_aMirrorMap[ 0x27C3 ] = 0x27C4; // OPEN SUBSET + m_aMirrorMap[ 0x27C4 ] = 0x27C3; // OPEN SUPERSET + m_aMirrorMap[ 0x27C5 ] = 0x27C6; // LEFT S-SHAPED BAG DELIMITER + m_aMirrorMap[ 0x27C6 ] = 0x27C5; // RIGHT S-SHAPED BAG DELIMITER + m_aMirrorMap[ 0x27C8 ] = 0x27C9; // REVERSE SOLIDUS PRECEDING SUBSET + m_aMirrorMap[ 0x27C9 ] = 0x27C8; // SUPERSET PRECEDING SOLIDUS + m_aMirrorMap[ 0x27D5 ] = 0x27D6; // LEFT OUTER JOIN + m_aMirrorMap[ 0x27D6 ] = 0x27D5; // RIGHT OUTER JOIN + m_aMirrorMap[ 0x27DD ] = 0x27DE; // LONG RIGHT TACK + m_aMirrorMap[ 0x27DE ] = 0x27DD; // LONG LEFT TACK + m_aMirrorMap[ 0x27E2 ] = 0x27E3; // WHITE CONCAVE-SIDED DIAMOND WITH LEFTWARDS TICK + m_aMirrorMap[ 0x27E3 ] = 0x27E2; // WHITE CONCAVE-SIDED DIAMOND WITH RIGHTWARDS TICK + m_aMirrorMap[ 0x27E4 ] = 0x27E5; // WHITE SQUARE WITH LEFTWARDS TICK + m_aMirrorMap[ 0x27E5 ] = 0x27E4; // WHITE SQUARE WITH RIGHTWARDS TICK + m_aMirrorMap[ 0x27E6 ] = 0x27E7; // MATHEMATICAL LEFT WHITE SQUARE BRACKET + m_aMirrorMap[ 0x27E7 ] = 0x27E6; // MATHEMATICAL RIGHT WHITE SQUARE BRACKET + m_aMirrorMap[ 0x27E8 ] = 0x27E9; // MATHEMATICAL LEFT ANGLE BRACKET + m_aMirrorMap[ 0x27E9 ] = 0x27E8; // MATHEMATICAL RIGHT ANGLE BRACKET + m_aMirrorMap[ 0x27EA ] = 0x27EB; // MATHEMATICAL LEFT DOUBLE ANGLE BRACKET + m_aMirrorMap[ 0x27EB ] = 0x27EA; // MATHEMATICAL RIGHT DOUBLE ANGLE BRACKET + m_aMirrorMap[ 0x27EC ] = 0x27ED; // MATHEMATICAL LEFT WHITE TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x27ED ] = 0x27EC; // MATHEMATICAL RIGHT WHITE TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x27EE ] = 0x27EF; // MATHEMATICAL LEFT FLATTENED PARENTHESIS + m_aMirrorMap[ 0x27EF ] = 0x27EE; // MATHEMATICAL RIGHT FLATTENED PARENTHESIS + m_aMirrorMap[ 0x2983 ] = 0x2984; // LEFT WHITE CURLY BRACKET + m_aMirrorMap[ 0x2984 ] = 0x2983; // RIGHT WHITE CURLY BRACKET + m_aMirrorMap[ 0x2985 ] = 0x2986; // LEFT WHITE PARENTHESIS + m_aMirrorMap[ 0x2986 ] = 0x2985; // RIGHT WHITE PARENTHESIS + m_aMirrorMap[ 0x2987 ] = 0x2988; // Z NOTATION LEFT IMAGE BRACKET + m_aMirrorMap[ 0x2988 ] = 0x2987; // Z NOTATION RIGHT IMAGE BRACKET + m_aMirrorMap[ 0x2989 ] = 0x298A; // Z NOTATION LEFT BINDING BRACKET + m_aMirrorMap[ 0x298A ] = 0x2989; // Z NOTATION RIGHT BINDING BRACKET + m_aMirrorMap[ 0x298B ] = 0x298C; // LEFT SQUARE BRACKET WITH UNDERBAR + m_aMirrorMap[ 0x298C ] = 0x298B; // RIGHT SQUARE BRACKET WITH UNDERBAR + m_aMirrorMap[ 0x298D ] = 0x2990; // LEFT SQUARE BRACKET WITH TICK IN TOP CORNER + m_aMirrorMap[ 0x298E ] = 0x298F; // RIGHT SQUARE BRACKET WITH TICK IN BOTTOM CORNER + m_aMirrorMap[ 0x298F ] = 0x298E; // LEFT SQUARE BRACKET WITH TICK IN BOTTOM CORNER + m_aMirrorMap[ 0x2990 ] = 0x298D; // RIGHT SQUARE BRACKET WITH TICK IN TOP CORNER + m_aMirrorMap[ 0x2991 ] = 0x2992; // LEFT ANGLE BRACKET WITH DOT + m_aMirrorMap[ 0x2992 ] = 0x2991; // RIGHT ANGLE BRACKET WITH DOT + m_aMirrorMap[ 0x2993 ] = 0x2994; // LEFT ARC LESS-THAN BRACKET + m_aMirrorMap[ 0x2994 ] = 0x2993; // RIGHT ARC GREATER-THAN BRACKET + m_aMirrorMap[ 0x2995 ] = 0x2996; // DOUBLE LEFT ARC GREATER-THAN BRACKET + m_aMirrorMap[ 0x2996 ] = 0x2995; // DOUBLE RIGHT ARC LESS-THAN BRACKET + m_aMirrorMap[ 0x2997 ] = 0x2998; // LEFT BLACK TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x2998 ] = 0x2997; // RIGHT BLACK TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x29B8 ] = 0x2298; // CIRCLED REVERSE SOLIDUS + m_aMirrorMap[ 0x29C0 ] = 0x29C1; // CIRCLED LESS-THAN + m_aMirrorMap[ 0x29C1 ] = 0x29C0; // CIRCLED GREATER-THAN + m_aMirrorMap[ 0x29C4 ] = 0x29C5; // SQUARED RISING DIAGONAL SLASH + m_aMirrorMap[ 0x29C5 ] = 0x29C4; // SQUARED FALLING DIAGONAL SLASH + m_aMirrorMap[ 0x29CF ] = 0x29D0; // LEFT TRIANGLE BESIDE VERTICAL BAR + m_aMirrorMap[ 0x29D0 ] = 0x29CF; // VERTICAL BAR BESIDE RIGHT TRIANGLE + m_aMirrorMap[ 0x29D1 ] = 0x29D2; // BOWTIE WITH LEFT HALF BLACK + m_aMirrorMap[ 0x29D2 ] = 0x29D1; // BOWTIE WITH RIGHT HALF BLACK + m_aMirrorMap[ 0x29D4 ] = 0x29D5; // TIMES WITH LEFT HALF BLACK + m_aMirrorMap[ 0x29D5 ] = 0x29D4; // TIMES WITH RIGHT HALF BLACK + m_aMirrorMap[ 0x29D8 ] = 0x29D9; // LEFT WIGGLY FENCE + m_aMirrorMap[ 0x29D9 ] = 0x29D8; // RIGHT WIGGLY FENCE + m_aMirrorMap[ 0x29DA ] = 0x29DB; // LEFT DOUBLE WIGGLY FENCE + m_aMirrorMap[ 0x29DB ] = 0x29DA; // RIGHT DOUBLE WIGGLY FENCE + m_aMirrorMap[ 0x29F5 ] = 0x2215; // REVERSE SOLIDUS OPERATOR + m_aMirrorMap[ 0x29F8 ] = 0x29F9; // BIG SOLIDUS + m_aMirrorMap[ 0x29F9 ] = 0x29F8; // BIG REVERSE SOLIDUS + m_aMirrorMap[ 0x29FC ] = 0x29FD; // LEFT-POINTING CURVED ANGLE BRACKET + m_aMirrorMap[ 0x29FD ] = 0x29FC; // RIGHT-POINTING CURVED ANGLE BRACKET + m_aMirrorMap[ 0x2A2B ] = 0x2A2C; // MINUS SIGN WITH FALLING DOTS + m_aMirrorMap[ 0x2A2C ] = 0x2A2B; // MINUS SIGN WITH RISING DOTS + m_aMirrorMap[ 0x2A2D ] = 0x2A2E; // PLUS SIGN IN LEFT HALF CIRCLE + m_aMirrorMap[ 0x2A2E ] = 0x2A2D; // PLUS SIGN IN RIGHT HALF CIRCLE + m_aMirrorMap[ 0x2A34 ] = 0x2A35; // MULTIPLICATION SIGN IN LEFT HALF CIRCLE + m_aMirrorMap[ 0x2A35 ] = 0x2A34; // MULTIPLICATION SIGN IN RIGHT HALF CIRCLE + m_aMirrorMap[ 0x2A3C ] = 0x2A3D; // INTERIOR PRODUCT + m_aMirrorMap[ 0x2A3D ] = 0x2A3C; // RIGHTHAND INTERIOR PRODUCT + m_aMirrorMap[ 0x2A64 ] = 0x2A65; // Z NOTATION DOMAIN ANTIRESTRICTION + m_aMirrorMap[ 0x2A65 ] = 0x2A64; // Z NOTATION RANGE ANTIRESTRICTION + m_aMirrorMap[ 0x2A79 ] = 0x2A7A; // LESS-THAN WITH CIRCLE INSIDE + m_aMirrorMap[ 0x2A7A ] = 0x2A79; // GREATER-THAN WITH CIRCLE INSIDE + m_aMirrorMap[ 0x2A7D ] = 0x2A7E; // LESS-THAN OR SLANTED EQUAL TO + m_aMirrorMap[ 0x2A7E ] = 0x2A7D; // GREATER-THAN OR SLANTED EQUAL TO + m_aMirrorMap[ 0x2A7F ] = 0x2A80; // LESS-THAN OR SLANTED EQUAL TO WITH DOT INSIDE + m_aMirrorMap[ 0x2A80 ] = 0x2A7F; // GREATER-THAN OR SLANTED EQUAL TO WITH DOT INSIDE + m_aMirrorMap[ 0x2A81 ] = 0x2A82; // LESS-THAN OR SLANTED EQUAL TO WITH DOT ABOVE + m_aMirrorMap[ 0x2A82 ] = 0x2A81; // GREATER-THAN OR SLANTED EQUAL TO WITH DOT ABOVE + m_aMirrorMap[ 0x2A83 ] = 0x2A84; // LESS-THAN OR SLANTED EQUAL TO WITH DOT ABOVE RIGHT + m_aMirrorMap[ 0x2A84 ] = 0x2A83; // GREATER-THAN OR SLANTED EQUAL TO WITH DOT ABOVE LEFT + m_aMirrorMap[ 0x2A8B ] = 0x2A8C; // LESS-THAN ABOVE DOUBLE-LINE EQUAL ABOVE GREATER-THAN + m_aMirrorMap[ 0x2A8C ] = 0x2A8B; // GREATER-THAN ABOVE DOUBLE-LINE EQUAL ABOVE LESS-THAN + m_aMirrorMap[ 0x2A91 ] = 0x2A92; // LESS-THAN ABOVE GREATER-THAN ABOVE DOUBLE-LINE EQUAL + m_aMirrorMap[ 0x2A92 ] = 0x2A91; // GREATER-THAN ABOVE LESS-THAN ABOVE DOUBLE-LINE EQUAL + m_aMirrorMap[ 0x2A93 ] = 0x2A94; // LESS-THAN ABOVE SLANTED EQUAL ABOVE GREATER-THAN ABOVE SLANTED EQUAL + m_aMirrorMap[ 0x2A94 ] = 0x2A93; // GREATER-THAN ABOVE SLANTED EQUAL ABOVE LESS-THAN ABOVE SLANTED EQUAL + m_aMirrorMap[ 0x2A95 ] = 0x2A96; // SLANTED EQUAL TO OR LESS-THAN + m_aMirrorMap[ 0x2A96 ] = 0x2A95; // SLANTED EQUAL TO OR GREATER-THAN + m_aMirrorMap[ 0x2A97 ] = 0x2A98; // SLANTED EQUAL TO OR LESS-THAN WITH DOT INSIDE + m_aMirrorMap[ 0x2A98 ] = 0x2A97; // SLANTED EQUAL TO OR GREATER-THAN WITH DOT INSIDE + m_aMirrorMap[ 0x2A99 ] = 0x2A9A; // DOUBLE-LINE EQUAL TO OR LESS-THAN + m_aMirrorMap[ 0x2A9A ] = 0x2A99; // DOUBLE-LINE EQUAL TO OR GREATER-THAN + m_aMirrorMap[ 0x2A9B ] = 0x2A9C; // DOUBLE-LINE SLANTED EQUAL TO OR LESS-THAN + m_aMirrorMap[ 0x2A9C ] = 0x2A9B; // DOUBLE-LINE SLANTED EQUAL TO OR GREATER-THAN + m_aMirrorMap[ 0x2AA1 ] = 0x2AA2; // DOUBLE NESTED LESS-THAN + m_aMirrorMap[ 0x2AA2 ] = 0x2AA1; // DOUBLE NESTED GREATER-THAN + m_aMirrorMap[ 0x2AA6 ] = 0x2AA7; // LESS-THAN CLOSED BY CURVE + m_aMirrorMap[ 0x2AA7 ] = 0x2AA6; // GREATER-THAN CLOSED BY CURVE + m_aMirrorMap[ 0x2AA8 ] = 0x2AA9; // LESS-THAN CLOSED BY CURVE ABOVE SLANTED EQUAL + m_aMirrorMap[ 0x2AA9 ] = 0x2AA8; // GREATER-THAN CLOSED BY CURVE ABOVE SLANTED EQUAL + m_aMirrorMap[ 0x2AAA ] = 0x2AAB; // SMALLER THAN + m_aMirrorMap[ 0x2AAB ] = 0x2AAA; // LARGER THAN + m_aMirrorMap[ 0x2AAC ] = 0x2AAD; // SMALLER THAN OR EQUAL TO + m_aMirrorMap[ 0x2AAD ] = 0x2AAC; // LARGER THAN OR EQUAL TO + m_aMirrorMap[ 0x2AAF ] = 0x2AB0; // PRECEDES ABOVE SINGLE-LINE EQUALS SIGN + m_aMirrorMap[ 0x2AB0 ] = 0x2AAF; // SUCCEEDS ABOVE SINGLE-LINE EQUALS SIGN + m_aMirrorMap[ 0x2AB3 ] = 0x2AB4; // PRECEDES ABOVE EQUALS SIGN + m_aMirrorMap[ 0x2AB4 ] = 0x2AB3; // SUCCEEDS ABOVE EQUALS SIGN + m_aMirrorMap[ 0x2ABB ] = 0x2ABC; // DOUBLE PRECEDES + m_aMirrorMap[ 0x2ABC ] = 0x2ABB; // DOUBLE SUCCEEDS + m_aMirrorMap[ 0x2ABD ] = 0x2ABE; // SUBSET WITH DOT + m_aMirrorMap[ 0x2ABE ] = 0x2ABD; // SUPERSET WITH DOT + m_aMirrorMap[ 0x2ABF ] = 0x2AC0; // SUBSET WITH PLUS SIGN BELOW + m_aMirrorMap[ 0x2AC0 ] = 0x2ABF; // SUPERSET WITH PLUS SIGN BELOW + m_aMirrorMap[ 0x2AC1 ] = 0x2AC2; // SUBSET WITH MULTIPLICATION SIGN BELOW + m_aMirrorMap[ 0x2AC2 ] = 0x2AC1; // SUPERSET WITH MULTIPLICATION SIGN BELOW + m_aMirrorMap[ 0x2AC3 ] = 0x2AC4; // SUBSET OF OR EQUAL TO WITH DOT ABOVE + m_aMirrorMap[ 0x2AC4 ] = 0x2AC3; // SUPERSET OF OR EQUAL TO WITH DOT ABOVE + m_aMirrorMap[ 0x2AC5 ] = 0x2AC6; // SUBSET OF ABOVE EQUALS SIGN + m_aMirrorMap[ 0x2AC6 ] = 0x2AC5; // SUPERSET OF ABOVE EQUALS SIGN + m_aMirrorMap[ 0x2ACD ] = 0x2ACE; // SQUARE LEFT OPEN BOX OPERATOR + m_aMirrorMap[ 0x2ACE ] = 0x2ACD; // SQUARE RIGHT OPEN BOX OPERATOR + m_aMirrorMap[ 0x2ACF ] = 0x2AD0; // CLOSED SUBSET + m_aMirrorMap[ 0x2AD0 ] = 0x2ACF; // CLOSED SUPERSET + m_aMirrorMap[ 0x2AD1 ] = 0x2AD2; // CLOSED SUBSET OR EQUAL TO + m_aMirrorMap[ 0x2AD2 ] = 0x2AD1; // CLOSED SUPERSET OR EQUAL TO + m_aMirrorMap[ 0x2AD3 ] = 0x2AD4; // SUBSET ABOVE SUPERSET + m_aMirrorMap[ 0x2AD4 ] = 0x2AD3; // SUPERSET ABOVE SUBSET + m_aMirrorMap[ 0x2AD5 ] = 0x2AD6; // SUBSET ABOVE SUBSET + m_aMirrorMap[ 0x2AD6 ] = 0x2AD5; // SUPERSET ABOVE SUPERSET + m_aMirrorMap[ 0x2ADE ] = 0x22A6; // SHORT LEFT TACK + m_aMirrorMap[ 0x2AE3 ] = 0x22A9; // DOUBLE VERTICAL BAR LEFT TURNSTILE + m_aMirrorMap[ 0x2AE4 ] = 0x22A8; // VERTICAL BAR DOUBLE LEFT TURNSTILE + m_aMirrorMap[ 0x2AE5 ] = 0x22AB; // DOUBLE VERTICAL BAR DOUBLE LEFT TURNSTILE + m_aMirrorMap[ 0x2AEC ] = 0x2AED; // DOUBLE STROKE NOT SIGN + m_aMirrorMap[ 0x2AED ] = 0x2AEC; // REVERSED DOUBLE STROKE NOT SIGN + m_aMirrorMap[ 0x2AF7 ] = 0x2AF8; // TRIPLE NESTED LESS-THAN + m_aMirrorMap[ 0x2AF8 ] = 0x2AF7; // TRIPLE NESTED GREATER-THAN + m_aMirrorMap[ 0x2AF9 ] = 0x2AFA; // DOUBLE-LINE SLANTED LESS-THAN OR EQUAL TO + m_aMirrorMap[ 0x2AFA ] = 0x2AF9; // DOUBLE-LINE SLANTED GREATER-THAN OR EQUAL TO + m_aMirrorMap[ 0x2E02 ] = 0x2E03; // LEFT SUBSTITUTION BRACKET + m_aMirrorMap[ 0x2E03 ] = 0x2E02; // RIGHT SUBSTITUTION BRACKET + m_aMirrorMap[ 0x2E04 ] = 0x2E05; // LEFT DOTTED SUBSTITUTION BRACKET + m_aMirrorMap[ 0x2E05 ] = 0x2E04; // RIGHT DOTTED SUBSTITUTION BRACKET + m_aMirrorMap[ 0x2E09 ] = 0x2E0A; // LEFT TRANSPOSITION BRACKET + m_aMirrorMap[ 0x2E0A ] = 0x2E09; // RIGHT TRANSPOSITION BRACKET + m_aMirrorMap[ 0x2E0C ] = 0x2E0D; // LEFT RAISED OMISSION BRACKET + m_aMirrorMap[ 0x2E0D ] = 0x2E0C; // RIGHT RAISED OMISSION BRACKET + m_aMirrorMap[ 0x2E1C ] = 0x2E1D; // LEFT LOW PARAPHRASE BRACKET + m_aMirrorMap[ 0x2E1D ] = 0x2E1C; // RIGHT LOW PARAPHRASE BRACKET + m_aMirrorMap[ 0x2E20 ] = 0x2E21; // LEFT VERTICAL BAR WITH QUILL + m_aMirrorMap[ 0x2E21 ] = 0x2E20; // RIGHT VERTICAL BAR WITH QUILL + m_aMirrorMap[ 0x2E22 ] = 0x2E23; // TOP LEFT HALF BRACKET + m_aMirrorMap[ 0x2E23 ] = 0x2E22; // TOP RIGHT HALF BRACKET + m_aMirrorMap[ 0x2E24 ] = 0x2E25; // BOTTOM LEFT HALF BRACKET + m_aMirrorMap[ 0x2E25 ] = 0x2E24; // BOTTOM RIGHT HALF BRACKET + m_aMirrorMap[ 0x2E26 ] = 0x2E27; // LEFT SIDEWAYS U BRACKET + m_aMirrorMap[ 0x2E27 ] = 0x2E26; // RIGHT SIDEWAYS U BRACKET + m_aMirrorMap[ 0x2E28 ] = 0x2E29; // LEFT DOUBLE PARENTHESIS + m_aMirrorMap[ 0x2E29 ] = 0x2E28; // RIGHT DOUBLE PARENTHESIS + m_aMirrorMap[ 0x3008 ] = 0x3009; // LEFT ANGLE BRACKET + m_aMirrorMap[ 0x3009 ] = 0x3008; // RIGHT ANGLE BRACKET + m_aMirrorMap[ 0x300A ] = 0x300B; // LEFT DOUBLE ANGLE BRACKET + m_aMirrorMap[ 0x300B ] = 0x300A; // RIGHT DOUBLE ANGLE BRACKET + m_aMirrorMap[ 0x300C ] = 0x300D; // [BEST FIT] LEFT CORNER BRACKET + m_aMirrorMap[ 0x300D ] = 0x300C; // [BEST FIT] RIGHT CORNER BRACKET + m_aMirrorMap[ 0x300E ] = 0x300F; // [BEST FIT] LEFT WHITE CORNER BRACKET + m_aMirrorMap[ 0x300F ] = 0x300E; // [BEST FIT] RIGHT WHITE CORNER BRACKET + m_aMirrorMap[ 0x3010 ] = 0x3011; // LEFT BLACK LENTICULAR BRACKET + m_aMirrorMap[ 0x3011 ] = 0x3010; // RIGHT BLACK LENTICULAR BRACKET + m_aMirrorMap[ 0x3014 ] = 0x3015; // LEFT TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x3015 ] = 0x3014; // RIGHT TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x3016 ] = 0x3017; // LEFT WHITE LENTICULAR BRACKET + m_aMirrorMap[ 0x3017 ] = 0x3016; // RIGHT WHITE LENTICULAR BRACKET + m_aMirrorMap[ 0x3018 ] = 0x3019; // LEFT WHITE TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x3019 ] = 0x3018; // RIGHT WHITE TORTOISE SHELL BRACKET + m_aMirrorMap[ 0x301A ] = 0x301B; // LEFT WHITE SQUARE BRACKET + m_aMirrorMap[ 0x301B ] = 0x301A; // RIGHT WHITE SQUARE BRACKET + m_aMirrorMap[ 0xFE59 ] = 0xFE5A; // SMALL LEFT PARENTHESIS + m_aMirrorMap[ 0xFE5A ] = 0xFE59; // SMALL RIGHT PARENTHESIS + m_aMirrorMap[ 0xFE5B ] = 0xFE5C; // SMALL LEFT CURLY BRACKET + m_aMirrorMap[ 0xFE5C ] = 0xFE5B; // SMALL RIGHT CURLY BRACKET + m_aMirrorMap[ 0xFE5D ] = 0xFE5E; // SMALL LEFT TORTOISE SHELL BRACKET + m_aMirrorMap[ 0xFE5E ] = 0xFE5D; // SMALL RIGHT TORTOISE SHELL BRACKET + m_aMirrorMap[ 0xFE64 ] = 0xFE65; // SMALL LESS-THAN SIGN + m_aMirrorMap[ 0xFE65 ] = 0xFE64; // SMALL GREATER-THAN SIGN + m_aMirrorMap[ 0xFF08 ] = 0xFF09; // FULLWIDTH LEFT PARENTHESIS + m_aMirrorMap[ 0xFF09 ] = 0xFF08; // FULLWIDTH RIGHT PARENTHESIS + m_aMirrorMap[ 0xFF1C ] = 0xFF1E; // FULLWIDTH LESS-THAN SIGN + m_aMirrorMap[ 0xFF1E ] = 0xFF1C; // FULLWIDTH GREATER-THAN SIGN + m_aMirrorMap[ 0xFF3B ] = 0xFF3D; // FULLWIDTH LEFT SQUARE BRACKET + m_aMirrorMap[ 0xFF3D ] = 0xFF3B; // FULLWIDTH RIGHT SQUARE BRACKET + m_aMirrorMap[ 0xFF5B ] = 0xFF5D; // FULLWIDTH LEFT CURLY BRACKET + m_aMirrorMap[ 0xFF5D ] = 0xFF5B; // FULLWIDTH RIGHT CURLY BRACKET + m_aMirrorMap[ 0xFF5F ] = 0xFF60; // FULLWIDTH LEFT WHITE PARENTHESIS + m_aMirrorMap[ 0xFF60 ] = 0xFF5F; // FULLWIDTH RIGHT WHITE PARENTHESIS + m_aMirrorMap[ 0xFF62 ] = 0xFF63; // [BEST FIT] HALFWIDTH LEFT CORNER BRACKET + m_aMirrorMap[ 0xFF63 ] = 0xFF62; // [BEST FIT] HALFWIDTH RIGHT CORNER BRACKET + } +} } diff --git a/sdext/source/pdfimport/tree/pdfiprocessor.hxx b/sdext/source/pdfimport/tree/pdfiprocessor.hxx index 97264df..37865a0 100644 --- a/sdext/source/pdfimport/tree/pdfiprocessor.hxx +++ b/sdext/source/pdfimport/tree/pdfiprocessor.hxx @@ -28,6 +28,7 @@ #ifndef INCLUDED_PDFI_PROCESSOR_HXX #define INCLUDED_PDFI_PROCESSOR_HXX +#include <com/sun/star/util/XStringMapping.hpp> #include <com/sun/star/xml/sax/XDocumentHandler.hpp> #include <com/sun/star/task/XStatusIndicator.hpp> #include <com/sun/star/rendering/XVolatileBitmap.hpp> @@ -107,8 +108,11 @@ namespace pdfi void sortElements( Element* pElement, bool bDeep = false ); void sortDocument( bool bDeep = false ); + + rtl::OUString mirrorString( const rtl::OUString& i_rInString ); private: + void prepareMirrorMap(); void processGlyphLine(); void processGlyph( double fPreAvarageSpaceValue, CharGlyph& rGlyph, @@ -242,6 +246,11 @@ namespace pdfi m_xStatusIndicator; bool m_bHaveTextOnDocLevel; + std::vector< sal_Unicode > m_aMirrorMap; + com::sun::star::uno::Reference< + com::sun::star::util::XStringMapping > + m_xMirrorMapper; + bool m_bMirrorMapperTried; }; class CharGlyph { diff --git a/sdext/source/pdfimport/tree/treevisitorfactory.cxx b/sdext/source/pdfimport/tree/treevisitorfactory.cxx index f455ea9..9ba05b8 100644 --- a/sdext/source/pdfimport/tree/treevisitorfactory.cxx +++ b/sdext/source/pdfimport/tree/treevisitorfactory.cxx @@ -50,7 +50,7 @@ namespace pdfi return boost::shared_ptr<ElementTreeVisitor>(new WriterXmlFinalizer(rStyles,rProc)); } - virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext& rEmitContext) const + virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext& rEmitContext, PDFIProcessor&) const { return boost::shared_ptr<ElementTreeVisitor>(new WriterXmlEmitter(rEmitContext)); } @@ -72,10 +72,12 @@ namespace pdfi return boost::shared_ptr<ElementTreeVisitor>(new DrawXmlFinalizer(rStyles,rProc)); } - virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext& rEmitContext) const + virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext& rEmitContext, PDFIProcessor& rProc) const { return boost::shared_ptr<ElementTreeVisitor>(new DrawXmlEmitter(rEmitContext, - DrawXmlEmitter::IMPRESS_DOC)); + DrawXmlEmitter::IMPRESS_DOC, + rProc + )); } }; @@ -95,10 +97,12 @@ namespace pdfi return boost::shared_ptr<ElementTreeVisitor>(new DrawXmlFinalizer(rStyles,rProc)); } - virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext& rEmitContext) const + virtual boost::shared_ptr<ElementTreeVisitor> createEmittingVisitor(EmitContext& rEmitContext, PDFIProcessor& rProc) const { return boost::shared_ptr<ElementTreeVisitor>(new DrawXmlEmitter(rEmitContext, - DrawXmlEmitter::DRAW_DOC)); + DrawXmlEmitter::DRAW_DOC, + rProc + )); } }; diff --git a/xpdf/makefile.mk b/xpdf/makefile.mk index c3dea0f..452ab84 100644 --- a/xpdf/makefile.mk +++ b/xpdf/makefile.mk @@ -48,7 +48,7 @@ dummy: TARFILE_NAME=xpdf-3.02 TARFILE_MD5=599dc4cc65a07ee868cf92a667a913d2 -PATCH_FILES=$(TARFILE_NAME).patch +PATCH_FILES=$(TARFILE_NAME).patch xpdf-3.02-sec.patch CONFIGURE_DIR= BUILD_DIR=$(CONFIGURE_DIR) diff --git a/xpdf/xpdf-3.02-sec.patch b/xpdf/xpdf-3.02-sec.patch new file mode 100644 index 0000000..a33b85e --- /dev/null +++ b/xpdf/xpdf-3.02-sec.patch @@ -0,0 +1,29 @@ +--- misc/xpdf-3.02/fofi/FoFiType1.cc 2007-02-27 23:05:51.000000000 +0100 ++++ misc/build/xpdf-3.02/fofi/FoFiType1.cc 2010-10-20 18:10:09.000000000 +0200 +@@ -224,7 +224,7 @@ + code = code * 8 + (*p2 - '0'); + } + } +- if (code < 256) { ++ if (code < 256 && code >= 0) { + for (p = p2; *p == ' ' || *p == '\t'; ++p) ; + if (*p == '/') { + ++p; +--- misc/xpdf-3.02/xpdf/Gfx.cc 2007-02-27 23:05:52.000000000 +0100 ++++ misc/build/xpdf-3.02/xpdf/Gfx.cc 2010-10-20 18:14:32.000000000 +0200 +@@ -444,6 +444,7 @@ + xref = xrefA; + subPage = gFalse; + printCommands = globalParams->getPrintCommands(); ++ parser = NULL; + + // start the resource stack + res = new GfxResources(xref, resDict, NULL); +@@ -486,6 +487,7 @@ + xref = xrefA; + subPage = gTrue; + printCommands = globalParams->getPrintCommands(); ++ parser = NULL; + + // start the resource stack + res = new GfxResources(xref, resDict, NULL); |