void PdfFontMetricsFreetype::GetBoundingBox( PdfArray & array ) const
{
    if( !m_pFace ) 
    {
        PODOFO_RAISE_ERROR( ePdfError_InvalidHandle );
    }

    array.Clear();
    array.push_back( PdfVariant( m_pFace->bbox.xMin * 1000.0 / m_pFace->units_per_EM ) );
    array.push_back( PdfVariant( m_pFace->bbox.yMin  * 1000.0 / m_pFace->units_per_EM ) );
    array.push_back( PdfVariant( m_pFace->bbox.xMax  * 1000.0 / m_pFace->units_per_EM ) );
    array.push_back( PdfVariant( m_pFace->bbox.yMax  * 1000.0 / m_pFace->units_per_EM ) );
}
Example #2
0
void PdfFontCID::Init( bool bEmbed )
{
    PdfObject* pDescriptor;
    PdfObject* pDescendantFonts;
    PdfObject* pCIDSystemInfo;
    PdfObject* pUnicode;

    PdfVariant var;
    PdfArray   array;

    // The descendant font is a CIDFont:
    pDescendantFonts = this->GetObject()->GetOwner()->CreateObject("Font");
    pCIDSystemInfo   = this->GetObject()->GetOwner()->CreateObject();
    pDescriptor      = this->GetObject()->GetOwner()->CreateObject("FontDescriptor");
    pUnicode         = this->GetObject()->GetOwner()->CreateObject(); // The ToUnicode CMap

    // Now setting each of the entries of the font
    this->GetObject()->GetDictionary().AddKey( PdfName::KeySubtype, PdfName("Type0") );
    this->GetObject()->GetDictionary().AddKey( "BaseFont", this->GetBaseFont() );
    this->GetObject()->GetDictionary().AddKey( "ToUnicode", pUnicode->Reference() );

    // The encoding is here usually a (Predefined) CMap from PdfIdentityEncoding:
    m_pEncoding->AddToDictionary( this->GetObject()->GetDictionary() );

    // The DecendantFonts, should be an indirect object:
    array.push_back( pDescendantFonts->Reference() );
    this->GetObject()->GetDictionary().AddKey( "DescendantFonts", array );

    // Setting the DescendantFonts paras
    // This is a type2 CIDFont, which is also known as TrueType:
    pDescendantFonts->GetDictionary().AddKey( PdfName::KeySubtype, PdfName("CIDFontType2") );

    // Same base font as the owner font:
    pDescendantFonts->GetDictionary().AddKey( "BaseFont", this->GetBaseFont() );

    // The CIDSystemInfo, should be an indirect object:
    pDescendantFonts->GetDictionary().AddKey( "CIDSystemInfo", pCIDSystemInfo->Reference() );

    // The FontDescriptor, should be an indirect object:
    pDescendantFonts->GetDictionary().AddKey( "FontDescriptor", pDescriptor->Reference() );
    pDescendantFonts->GetDictionary().AddKey( "CIDToGIDMap", PdfName("Identity") );

    // Add the width keys
    this->CreateWidth( pDescendantFonts );

    // Create the ToUnicode CMap
    this->CreateCMap( pUnicode );

    // Setting the CIDSystemInfo paras:
    pCIDSystemInfo->GetDictionary().AddKey( "Registry", PdfString("Adobe") );
    pCIDSystemInfo->GetDictionary().AddKey( "Ordering", PdfString("Identity") );
    pCIDSystemInfo->GetDictionary().AddKey( "Supplement", PdfVariant(static_cast<pdf_int64>(0LL)) );


    // Setting the FontDescriptor paras:
    array.Clear();
    m_pMetrics->GetBoundingBox( array );

    pDescriptor->GetDictionary().AddKey( "FontName", this->GetBaseFont() );
    pDescriptor->GetDictionary().AddKey( PdfName::KeyFlags, PdfVariant( static_cast<pdf_int64>(32LL) ) ); // TODO: 0 ????
    pDescriptor->GetDictionary().AddKey( "FontBBox", array );
    pDescriptor->GetDictionary().AddKey( "ItalicAngle", PdfVariant( static_cast<pdf_int64>(m_pMetrics->GetItalicAngle()) ) );
    pDescriptor->GetDictionary().AddKey( "Ascent", m_pMetrics->GetPdfAscent() );
    pDescriptor->GetDictionary().AddKey( "Descent", m_pMetrics->GetPdfDescent() );
    pDescriptor->GetDictionary().AddKey( "CapHeight", m_pMetrics->GetPdfAscent() ); // m_pMetrics->CapHeight() );
    pDescriptor->GetDictionary().AddKey( "StemV", PdfVariant( static_cast<pdf_int64>(1LL) ) );               // m_pMetrics->StemV() );

    // Peter Petrov 24 September 2008
    m_pDescriptor = pDescriptor;
    
    if( bEmbed )
    {
        this->EmbedFont( pDescriptor );
        m_bWasEmbedded = true;
    }
}