}
}
private void loadDescriptorDictionary(PDFontDescriptorDictionary fd, InputStream ttfData) throws IOException
{
TrueTypeFont ttf = null;
try
{
TTFParser parser = new TTFParser();
ttf = parser.parseTTF( ttfData );
NamingTable naming = ttf.getNaming();
List<NameRecord> records = naming.getNameRecords();
for( int i=0; i<records.size(); i++ )
{
NameRecord nr = records.get( i );
if( nr.getNameId() == NameRecord.NAME_POSTSCRIPT_NAME )
{
setBaseFont( nr.getString() );
fd.setFontName( nr.getString() );
}
else if( nr.getNameId() == NameRecord.NAME_FONT_FAMILY_NAME )
{
fd.setFontFamily( nr.getString() );
}
}
OS2WindowsMetricsTable os2 = ttf.getOS2Windows();
boolean isSymbolic = false;
switch( os2.getFamilyClass() )
{
case OS2WindowsMetricsTable.FAMILY_CLASS_SYMBOLIC:
isSymbolic = true;
break;
case OS2WindowsMetricsTable.FAMILY_CLASS_SCRIPTS:
fd.setScript( true );
break;
case OS2WindowsMetricsTable.FAMILY_CLASS_CLAREDON_SERIFS:
case OS2WindowsMetricsTable.FAMILY_CLASS_FREEFORM_SERIFS:
case OS2WindowsMetricsTable.FAMILY_CLASS_MODERN_SERIFS:
case OS2WindowsMetricsTable.FAMILY_CLASS_OLDSTYLE_SERIFS:
case OS2WindowsMetricsTable.FAMILY_CLASS_SLAB_SERIFS:
fd.setSerif( true );
break;
default:
//do nothing
}
switch( os2.getWidthClass() )
{
case OS2WindowsMetricsTable.WIDTH_CLASS_ULTRA_CONDENSED:
fd.setFontStretch( "UltraCondensed" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_EXTRA_CONDENSED:
fd.setFontStretch( "ExtraCondensed" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_CONDENSED:
fd.setFontStretch( "Condensed" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_SEMI_CONDENSED:
fd.setFontStretch( "SemiCondensed" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_MEDIUM:
fd.setFontStretch( "Normal" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_SEMI_EXPANDED:
fd.setFontStretch( "SemiExpanded" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_EXPANDED:
fd.setFontStretch( "Expanded" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_EXTRA_EXPANDED:
fd.setFontStretch( "ExtraExpanded" );
break;
case OS2WindowsMetricsTable.WIDTH_CLASS_ULTRA_EXPANDED:
fd.setFontStretch( "UltraExpanded" );
break;
default:
//do nothing
}
fd.setFontWeight( os2.getWeightClass() );
fd.setSymbolic( isSymbolic );
fd.setNonSymbolic( !isSymbolic );
//todo retval.setItalic
//todo retval.setAllCap
//todo retval.setSmallCap
//todo retval.setForceBold
HeaderTable header = ttf.getHeader();
PDRectangle rect = new PDRectangle();
float scaling = 1000f/header.getUnitsPerEm();
rect.setLowerLeftX( header.getXMin() * scaling );
rect.setLowerLeftY( header.getYMin() * scaling );
rect.setUpperRightX( header.getXMax() * scaling );
rect.setUpperRightY( header.getYMax() * scaling );
fd.setFontBoundingBox( rect );
HorizontalHeaderTable hHeader = ttf.getHorizontalHeader();
fd.setAscent( hHeader.getAscender() * scaling );
fd.setDescent( hHeader.getDescender() * scaling );
GlyphTable glyphTable = ttf.getGlyph();
GlyphData[] glyphs = glyphTable.getGlyphs();
PostScriptTable ps = ttf.getPostScript();
fd.setFixedPitch( ps.getIsFixedPitch() > 0 );
fd.setItalicAngle( ps.getItalicAngle() );
String[] names = ps.getGlyphNames();
if( names != null )
{
for( int i=0; i<names.length; i++ )
{
//if we have a capital H then use that, otherwise use the
//tallest letter
if( names[i].equals( "H" ) )
{
fd.setCapHeight( glyphs[i].getBoundingBox().getUpperRightY()/scaling );
}
if( names[i].equals( "x" ) )
{
fd.setXHeight( glyphs[i].getBoundingBox().getUpperRightY()/scaling );
}
}
}
//hmm there does not seem to be a clear definition for StemV,
//this is close enough and I am told it doesn't usually get used.
fd.setStemV( (fd.getFontBoundingBox().getWidth() * .13f) );
CMAPTable cmapTable = ttf.getCMAP();
CMAPEncodingEntry[] cmaps = cmapTable.getCmaps();
CMAPEncodingEntry uniMap = null;
for( int i=0; i<cmaps.length; i++ )
{
if( cmaps[i].getPlatformId() == CMAPTable.PLATFORM_WINDOWS)
{
int platformEncoding = cmaps[i].getPlatformEncodingId();
if ( CMAPTable.ENCODING_UNICODE == platformEncoding )
{
uniMap = cmaps[i];
break;
}
}
}
Map<Integer, String> codeToName = this.getFontEncoding().getCodeToNameMap();
int firstChar = Collections.min(codeToName.keySet());
int lastChar = Collections.max(codeToName.keySet());
HorizontalMetricsTable hMet = ttf.getHorizontalMetrics();
int[] widthValues = hMet.getAdvanceWidth();
// some monospaced fonts provide only one value for the width
// instead of an array containing the same value for every glyphid
boolean isMonospaced = fd.isFixedPitch();
int nWidths=lastChar-firstChar+1;
List<Float> widths = new ArrayList<Float>(nWidths);
// use the first width as default
// proportional fonts -> width of the .notdef character
// monospaced-fonts -> the first width
int defaultWidth = Math.round(widthValues[0] * scaling);
for (int i = 0; i < nWidths; i++)
{
widths.add((float)defaultWidth);
}
// Encoding singleton to have acces to the chglyph name to
// unicode cpoint point mapping of Adobe's glyphlist.txt
Encoding glyphlist = WinAnsiEncoding.INSTANCE;
// A character code is mapped to a glyph name via the provided
// font encoding. Afterwards, the glyph name is translated to a
// glyph ID.
// For details, see PDFReference16.pdf, Section 5.5.5, p.401
//
for (Entry<Integer, String> e : codeToName.entrySet())
{
String name = e.getValue();
// pdf code to unicode by glyph list.
String c = glyphlist.getCharacter(name);
int charCode = c.codePointAt(0);
int gid = uniMap.getGlyphId(charCode);
if (gid != 0)
{
if (isMonospaced)
{
widths.set(e.getKey().intValue() - firstChar, (float)defaultWidth);
}
else
{
widths.set(e.getKey().intValue() - firstChar, (float)Math.round(widthValues[gid] * scaling));
}
}
}
setWidths( widths );
setFirstChar( firstChar );
setLastChar( lastChar );
}
finally
{
if( ttf != null )
{
ttf.close();
}
}
}