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/*
For general Scribus (>=1.3.2) copyright and licensing information please refer
to the COPYING file provided with the program. Following this notice may exist
a copyright and/or license notice that predates the release of Scribus 1.3.2
for which a new license (GPL+exception) is in place.
*/
#include <QFile>
#include <QString>
#include <QObject>
#include <QDebug>
// #include <QTime>
#include <sys/types.h>
#include "fonts/scface_ttf.h"
#include "fonts/scfontmetrics.h"
#include "util.h"
#include "scconfig.h"
KernFeature::KernFeature ( FT_Face face )
:m_valid ( true )
{
FontName = QString ( face->family_name ) + " " + QString ( face->style_name ) ;
// qDebug() <<"KF"<<FontName;
// QTime t;
// t.start();
FT_ULong length = 0;
if ( !FT_Load_Sfnt_Table ( face, TTAG_GPOS , 0, NULL, &length ) )
{
// qDebug() <<"\t"<<"GPOS table len"<<length;
if ( length > 32 )
{
GPOSTableRaw.resize ( length );
FT_Load_Sfnt_Table ( face, TTAG_GPOS, 0, reinterpret_cast<FT_Byte*> ( GPOSTableRaw.data() ), &length );
makeCoverage();
}
else
m_valid = false;
GPOSTableRaw.clear();
coverages.clear();
}
else
m_valid = false;
if ( !m_valid )
pairs.clear();
// qDebug() <<"\t"<<m_valid;
// qDebug() <<"\t"<<t.elapsed();
}
KernFeature::KernFeature ( const KernFeature & kf )
{
m_valid = kf.m_valid;
if ( m_valid )
pairs = kf.pairs;
}
KernFeature::~ KernFeature()
{
}
double KernFeature::getPairValue ( unsigned int glyph1, unsigned int glyph2 ) const
{
if ( m_valid )
{
if ( pairs.contains ( glyph1 ) )
{
if ( pairs[glyph1].contains ( glyph2 ) )
{
return pairs[glyph1][glyph2];
}
}
}
return 0.0;
}
void KernFeature::makeCoverage()
{
if ( GPOSTableRaw.isEmpty() )
return;
quint16 FeatureList_Offset= toUint16 ( 6 );
quint16 LookupList_Offset = toUint16 ( 8 );
// Find the offsets of the kern feature tables
quint16 FeatureCount = toUint16 ( FeatureList_Offset );;
QList<quint16> FeatureKern_Offset;
for ( quint16 FeatureRecord ( 0 ); FeatureRecord < FeatureCount; ++ FeatureRecord )
{
int rawIdx ( FeatureList_Offset + 2 + ( 6 * FeatureRecord ) );
quint32 tag ( FT_MAKE_TAG ( GPOSTableRaw.at ( rawIdx ),
GPOSTableRaw.at ( rawIdx + 1 ),
GPOSTableRaw.at ( rawIdx + 2 ),
GPOSTableRaw.at ( rawIdx + 3 ) ) );
if ( tag == TTAG_kern )
{
FeatureKern_Offset << ( toUint16 ( rawIdx + 4 ) + FeatureList_Offset );
}
}
// Extract indices of lookups for feture kern
QList<quint16> LookupListIndex;
foreach ( quint16 kern, FeatureKern_Offset )
{
quint16 LookupCount ( toUint16 ( kern + 2 ) );
for ( int llio ( 0 ) ; llio < LookupCount; ++llio )
{
quint16 Idx ( toUint16 ( kern + 4 + ( llio * 2 ) ) );
if ( !LookupListIndex.contains ( Idx ) )
{
LookupListIndex <<Idx ;
}
}
}
// Extract offsets of lookup tables for feature kern
QList<quint16> LookupTables;
QList<quint16> PairAdjustmentSubTables;
for ( int i ( 0 ); i < LookupListIndex.count(); ++i )
{
int rawIdx ( LookupList_Offset + 2 + ( LookupListIndex[i] * 2 ) );
quint16 Lookup ( toUint16 ( rawIdx ) + LookupList_Offset );
quint16 SubTableCount ( toUint16 ( Lookup + 4 ) );
for ( int stIdx ( 0 ); stIdx < SubTableCount; ++ stIdx )
{
quint16 SubTable ( toUint16 ( Lookup + 6 + ( 2 * stIdx ) ) + Lookup );
// quint16 PosFormat ( toUint16 ( SubTable ) );
quint16 Coverage_Offset ( toUint16 ( SubTable + 2 ) + SubTable );
quint16 CoverageFormat ( toUint16 ( Coverage_Offset ) );
if ( 1 == CoverageFormat ) // glyph indices based
{
quint16 GlyphCount ( toUint16 ( Coverage_Offset + 2 ) );
quint16 GlyphID ( Coverage_Offset + 4 );
for ( unsigned int gl ( 0 ); gl < GlyphCount; ++gl )
{
coverages[SubTable] << toUint16 ( GlyphID + ( gl * 2 ) );
}
}
else if ( 2 == CoverageFormat ) // Coverage Format2 => ranges based
{
quint16 RangeCount ( toUint16 ( Coverage_Offset + 2 ) );
// int gl_base ( 0 );
for ( int r ( 0 ); r < RangeCount; ++r )
{
quint16 rBase ( Coverage_Offset + 4 + ( r * 6 ) );
quint16 Start ( toUint16 ( rBase ) );
quint16 End ( toUint16 ( rBase + 2 ) );
// quint16 StartCoverageIndex ( toUint16 ( rBase + 4 ) );
for ( unsigned int gl ( Start ); gl <= End; ++gl )
coverages[SubTable] << gl;
}
}
else
qDebug() <<"Unknow Coverage Format:"<<CoverageFormat;
makePairs ( SubTable );
}
}
}
void KernFeature::makePairs ( quint16 subtableOffset )
{
/*
Lookup Type 2:
Pair Adjustment Positioning Subtable
*/
quint16 PosFormat ( toUint16 ( subtableOffset ) );
if ( PosFormat == 1 )
{
quint16 ValueFormat1 ( toUint16 ( subtableOffset +4 ) );
quint16 ValueFormat2 ( toUint16 ( subtableOffset +6 ) );
quint16 PairSetCount ( toUint16 ( subtableOffset +8 ) );
if ( ValueFormat1 && ValueFormat2 )
{
for ( int psIdx ( 0 ); psIdx < PairSetCount; ++ psIdx )
{
unsigned int FirstGlyph ( coverages[subtableOffset][psIdx] );
quint16 PairSetOffset ( toUint16 ( subtableOffset +10 + ( 2 * psIdx ) ) + subtableOffset );
quint16 PairValueCount ( toUint16 ( PairSetOffset ) );
quint16 PairValueRecord ( PairSetOffset + 2 );
for ( int pvIdx ( 0 );pvIdx < PairValueCount; ++pvIdx )
{
quint16 recordBase ( PairValueRecord + ( ( 2 + 2 + 2 ) * pvIdx ) );
quint16 SecondGlyph ( toUint16 ( recordBase ) );
qint16 Value1 ( toInt16 ( recordBase + 2 ) );
pairs[FirstGlyph][SecondGlyph] = double ( Value1 );
}
}
}
else if ( ValueFormat1 && ( !ValueFormat2 ) )
{
for ( int psIdx ( 0 ); psIdx < PairSetCount; ++ psIdx )
{
unsigned int FirstGlyph ( coverages[subtableOffset][psIdx] );
quint16 PairSetOffset ( toUint16 ( subtableOffset +10 + ( 2 * psIdx ) ) + subtableOffset );
quint16 PairValueCount ( toUint16 ( PairSetOffset ) );
quint16 PairValueRecord ( PairSetOffset + 2 );
for ( int pvIdx ( 0 );pvIdx < PairValueCount; ++pvIdx )
{
quint16 recordBase ( PairValueRecord + ( ( 2 + 2 ) * pvIdx ) );
quint16 SecondGlyph ( toUint16 ( recordBase ) );
qint16 Value1 ( toInt16 ( recordBase + 2 ) );
pairs[FirstGlyph][SecondGlyph] = double ( Value1 );
}
}
}
else
{
qDebug() <<"ValueFormat1 is null or both ValueFormat1 and ValueFormat2 are null";
}
}
else if ( PosFormat == 2 )
{
quint16 ValueFormat1 ( toUint16 ( subtableOffset +4 ) );
quint16 ValueFormat2 ( toUint16 ( subtableOffset +6 ) );
quint16 ClassDef1 ( toUint16 ( subtableOffset +8 ) + subtableOffset );
quint16 ClassDef2 ( toUint16 ( subtableOffset +10 ) + subtableOffset );
quint16 Class1Count ( toUint16 ( subtableOffset +12 ) );
quint16 Class2Count ( toUint16 ( subtableOffset +14 ) );
quint16 Class1Record ( subtableOffset +16 );
// first extract classses
ClassDefTable Class1Data ( getClass ( ClassDef1 , subtableOffset ) );
ClassDefTable Class2Data ( getClass ( ClassDef2 , subtableOffset ) );
if ( ValueFormat1 && ValueFormat2 )
{
for ( quint16 C1 ( 0 );C1 < Class1Count; ++C1 )
{
QList<quint16> Class1 ( Class1Data[C1] );
quint16 Class2Record ( Class1Record + ( C1 * ( 2 * 2 * Class2Count ) ) );
for ( quint16 C2 ( 0 );C2 < Class2Count; ++C2 )
{
qint16 Value1 ( toInt16 ( Class2Record + ( C2 * ( 2 * 2 ) ) ) );
QList<quint16> Class2 ( Class2Data[C2] );
// keep it barbarian :D
foreach ( quint16 FirstGlyph, Class1 )
{
foreach ( quint16 SecondGlyph, Class2 )
{
if ( Value1 )
pairs[FirstGlyph][SecondGlyph] = double ( Value1 );
}
}
}
}
}
else if ( ValueFormat1 && ( !ValueFormat2 ) )
{
for ( quint16 C1 ( 0 );C1 < Class1Count; ++C1 )
{
QString cdbg ( QString::number ( C1 ).rightJustified ( 5,QChar ( 32 ) ) );
QList<quint16> Class1 ( Class1Data[C1] );
quint16 Class2Record ( Class1Record + ( C1 * ( 2 * Class2Count ) ) );
for ( quint16 C2 ( 0 );C2 < Class2Count; ++C2 )
{
qint16 Value1 ( toInt16 ( Class2Record + ( C2 * 2 ) ) );
QList<quint16> Class2 ( Class2Data[C2] );
foreach ( quint16 FirstGlyph, Class1 )
{
foreach ( quint16 SecondGlyph, Class2 )
{
if ( Value1 )
pairs[FirstGlyph][SecondGlyph] = double ( Value1 );
}
}
}
}
}
else
{
qDebug() <<"ValueFormat1 is null or both ValueFormat1 and ValueFormat2 are null";
}
}
else
qDebug() <<"unknown PosFormat"<<PosFormat;
}
KernFeature::ClassDefTable KernFeature::getClass ( quint16 classDefOffset, quint16 coverageId )
{
ClassDefTable ret;
ret[0] = coverages[coverageId];
quint16 ClassFormat ( toUint16 ( classDefOffset ) );
if ( ClassFormat == 1 )
{
quint16 StartGlyph ( toUint16 ( classDefOffset +2 ) );
quint16 GlyphCount ( toUint16 ( classDefOffset +4 ) );
quint16 ClassValueArray ( classDefOffset + 6 );
for ( quint16 CV ( 0 );CV < GlyphCount; ++CV )
{
ret[0].removeAll ( StartGlyph + CV );
ret[ toUint16 ( ClassValueArray + ( CV * 2 ) ) ] << StartGlyph + CV;
}
}
else if ( ClassFormat == 2 )
{
quint16 ClassRangeCount ( toUint16 ( classDefOffset + 2 ) );
quint16 ClassRangeRecord ( classDefOffset + 4 );
for ( int CRR ( 0 ); CRR < ClassRangeCount; ++CRR )
{
quint16 Start ( toUint16 ( ClassRangeRecord + ( CRR * 6 ) ) );
quint16 End ( toUint16 ( ClassRangeRecord + ( CRR * 6 ) + 2 ) );
quint16 Class ( toUint16 ( ClassRangeRecord + ( CRR * 6 ) + 4 ) );
for ( quint16 gl ( Start ); gl <= End; ++gl )
{
ret[0].removeAll ( gl );
ret[Class] << gl;
}
}
}
else
qDebug() <<"Unknown Class Table type";
return ret;
}
quint16 KernFeature::toUint16 ( quint16 index )
{
if ( ( index + 2 ) > GPOSTableRaw.count() )
{
qDebug() << "HORROR!" << index << GPOSTableRaw.count() << FontName ;
// Rather no kerning at all than random kerning
// m_valid = false;
return 0;
}
// FIXME I just do not know how it has to be done *properly*
quint16 c1 ( GPOSTableRaw.at ( index ) );
quint16 c2 ( GPOSTableRaw.at ( index + 1 ) );
c1 &= 0xFF;
c2 &= 0xFF;
quint16 ret ( ( c1 << 8 ) | c2 );
return ret;
}
qint16 KernFeature::toInt16 ( quint16 index )
{
if ( ( index + 2 ) > GPOSTableRaw.count() )
{
return 0;
}
// FIXME I just do not know how it has to be done *properly*
quint16 c1 ( GPOSTableRaw.at ( index ) );
quint16 c2 ( GPOSTableRaw.at ( index + 1 ) );
c1 &= 0xFF;
c2 &= 0xFF;
qint16 ret ( ( c1 << 8 ) | c2 );
return ret;
}
namespace
{
uint word ( QByteArray const & bb, uint pos )
{
const unsigned char * pp = reinterpret_cast<const unsigned char*> ( bb.data() ) + pos;
return pp[0] << 24 | pp[1] << 16 | pp[2] << 8 | pp[3];
}
uint word16 ( QByteArray const & bb, uint pos )
{
const unsigned char * pp = reinterpret_cast<const unsigned char*> ( bb.data() ) + pos;
return pp[0] << 8 | pp[1];
}
QString tag ( QByteArray const & bb, uint pos )
{
char buf[5] = "1234";
buf[0] = bb.data() [pos];
buf[1] = bb.data() [pos+1];
buf[2] = bb.data() [pos+2];
buf[3] = bb.data() [pos+3];
return buf;
}
bool copy ( QByteArray & dst, uint to, QByteArray & src, uint from, uint len )
{
if ( !dst.data() )
return false;
if ( !src.data() )
return false;
if ( to + len > static_cast<uint> ( dst.size() ) )
return false;
if ( from + len > static_cast<uint> ( src.size() ) )
return false;
memcpy ( dst.data() + to, src.data() + from, len );
return true;
}
} //namespace
ScFace_ttf::ScFace_ttf ( QString fam, QString sty, QString alt, QString scname, QString psname, QString path, int face )
: FtFace ( fam, sty, alt, scname, psname, path, face )
{
formatCode = ScFace::SFNT;
kernFeature = 0;
}
ScFace_ttf::~ ScFace_ttf()
{
if ( kernFeature )
delete kernFeature;
}
void ScFace_ttf::load() const
{
if ( !kernFeature )
kernFeature = new KernFeature ( ftFace() );
FtFace::load();
}
void ScFace_ttf::unload() const
{
if ( kernFeature )
delete kernFeature;
kernFeature = 0;
FtFace::unload();
}
void ScFace_ttf::RawData ( QByteArray & bb ) const
{
if ( formatCode == ScFace::TTCF )
{
QByteArray coll;
FtFace::RawData ( coll );
// access table for faceIndex
if ( faceIndex >= static_cast<int> ( word ( coll, 8 ) ) )
{
bb.resize ( 0 );
return;
}
static const uint OFFSET_TABLE_LEN = 12;
static const uint TDIR_ENTRY_LEN = 16;
uint faceOffset = word ( coll, 12 + 4 * faceIndex );
uint nTables = word16 ( coll, faceOffset + 4 );
sDebug ( QObject::tr ( "extracting face %1 from font %2 (offset=%3, nTables=%4)" ).arg ( faceIndex ).arg ( fontFile ).arg ( faceOffset ).arg ( nTables ) );
uint headerLength = OFFSET_TABLE_LEN + TDIR_ENTRY_LEN * nTables;
uint tableLengths = 0;
// sum table lengths incl padding
for ( uint i=0; i < nTables; ++i )
{
tableLengths += word ( coll, faceOffset + OFFSET_TABLE_LEN + TDIR_ENTRY_LEN * i + 12 );
tableLengths = ( tableLengths+3 ) & ~3;
}
bb.resize ( headerLength + tableLengths );
if ( ! bb.data() )
return;
// write header
sDebug ( QObject::tr ( "memcpy header: %1 %2 %3" ).arg ( 0 ).arg ( faceOffset ).arg ( headerLength ) );
if ( !copy ( bb, 0, coll, faceOffset, headerLength ) )
return;
uint pos = headerLength;
for ( uint i=0; i < nTables; ++i )
{
uint tableSize = word ( coll, faceOffset + OFFSET_TABLE_LEN + TDIR_ENTRY_LEN * i + 12 );
uint tableStart = word ( coll, faceOffset + OFFSET_TABLE_LEN + TDIR_ENTRY_LEN * i + 8 );
sDebug ( QObject::tr ( "table '%1'" ).arg ( tag ( coll, tableStart ) ) );
sDebug ( QObject::tr ( "memcpy table: %1 %2 %3" ).arg ( pos ).arg ( tableStart ).arg ( tableSize ) );
if ( !copy ( bb, pos, coll, tableStart, tableSize ) ) break;
// write new offset to table entry
sDebug ( QObject::tr ( "memcpy offset: %1 %2 %3" ).arg ( OFFSET_TABLE_LEN + TDIR_ENTRY_LEN*i + 8 ).arg ( pos ).arg ( 4 ) );
memcpy ( bb.data() + OFFSET_TABLE_LEN + TDIR_ENTRY_LEN * i + 8, &pos, 4 );
pos += tableSize;
// pad
while ( ( pos & 3 ) != 0 )
bb.data() [pos++] = '\0';
}
}
else if ( formatCode == ScFace::TYPE42 )
{
FtFace::RawData ( bb );
}
else
{
FtFace::RawData ( bb );
}
}
bool ScFace_ttf::EmbedFont ( QString &str ) const
{
if ( formatCode == ScFace::TYPE42 )
{
//easy:
QByteArray bb;
FtFace::RawData ( bb );
str += bb;
return true;
}
QString tmp4;
QString tmp2 = "";
QString tmp3 = "";
int counter = 0;
char *buf[50];
FT_ULong charcode;
FT_UInt gindex;
FT_Face face = ftFace();
if ( !face )
{
return false;
}
const FT_Stream fts = face->stream;
if ( ftIOFunc ( fts, 0L, NULL, 0 ) )
{
return ( false );
}
str+="%!PS-TrueTypeFont\n";
str+="11 dict begin\n";
str+="/FontName /" + psName + " def\n";
str+="/Encoding /ISOLatin1Encoding where {pop ISOLatin1Encoding} {StandardEncoding} ifelse def\n";
str+="/PaintType 0 def\n/FontMatrix [1 0 0 1 0 0] def\n";
str+="/FontBBox ["+FontBBox+"] def\n";
str+="/FontType 42 def\n";
str+="/FontInfo 8 dict dup begin\n";
str+="/FamilyName (" + psName + ") def\n";
str+="end readonly def\n";
unsigned char *tmp = new unsigned char[65535];
int length;
char linebuf[80];
str += "/sfnts [";
int poso=0;
do
{
int posi=0;
length= fts->size - fts->pos;
if ( length > 65534 )
{
length = 65534;
}
if ( !ftIOFunc ( fts, 0L, tmp, length ) )
{
str+="\n<\n";
for ( int j = 0; j < length; j++ )
{
unsigned char u=tmp[posi];
linebuf[poso]= ( ( u >> 4 ) & 15 ) + '0';
if ( u>0x9f ) linebuf[poso]+='a'-':';
++poso;
u&=15; linebuf[poso]=u + '0';
if ( u>0x9 ) linebuf[poso]+='a'-':';
++posi;
++poso;
if ( poso > 70 )
{
linebuf[poso++]='\n';
linebuf[poso++]=0;
str += linebuf;
poso = 0;
}
}
linebuf[poso++]=0;
str += linebuf;
poso = 0;
str += "00\n>";
}
else
{
sDebug ( QObject::tr ( "Font %1 is broken (read stream), no embedding" ).arg ( fontFile ) );
str += "\n] def\n";
status = qMax ( status,ScFace::BROKENGLYPHS );
return false;
}
}
while ( length==65534 );
str += "\n] def\n";
delete[] tmp;
gindex = 0;
charcode = FT_Get_First_Char ( face, &gindex );
while ( gindex != 0 )
{
FT_Get_Glyph_Name ( face, gindex, buf, 50 );
tmp2 += "/"+QString ( reinterpret_cast<char*> ( buf ) ) +" "+tmp3.setNum ( gindex ) +" def\n";
charcode = FT_Get_Next_Char ( face, charcode, &gindex );
counter++;
}
tmp4.setNum ( counter );
str += "/CharStrings " + tmp4 + " dict dup begin\n"+tmp2;
str += "end readonly def\n";
str += "FontName currentdict end definefont pop\n";
return ( true );
}
qreal ScFace_ttf::glyphKerning ( uint gl1, uint gl2, qreal sz ) const
{
if ( kernFeature->isValid() )
{
return kernFeature->getPairValue ( gl1,gl2 ) / m_uniEM * sz;
}
else
return FtFace::glyphKerning ( gl1, gl2, sz );
}