/****************************************************************************** ** libDXFrw - Library to read/write DXF files (ascii & binary) ** ** ** ** Copyright (C) 2011 Rallaz, rallazz@gmail.com ** ** ** ** This library is free software, licensed under the terms of the GNU ** ** General Public License as published by the Free Software Foundation, ** ** either version 2 of the License, or (at your option) any later version. ** ** You should have received a copy of the GNU General Public License ** ** along with this program. If not, see . ** ******************************************************************************/ #include "libdxfrw.h" #include #include #include #include "intern/drw_textcodec.h" #include "intern/dxfreader.h" #include "intern/dxfwriter.h" #include #ifdef DRW_DBG #include // for debug #define DBG( a ) std::cerr << a #else #define DBG( a ) #endif #define FIRSTHANDLE 48 /*enum sections { * secUnknown, * secHeader, * secTables, * secBlocks, * secEntities, * secObjects * };*/ dxfRW::dxfRW( const char* name ) { fileName = name; reader = NULL; writer = NULL; applyExt = false; elParts = 128; // parts munber when convert ellipse to polyline version = DRW::UNKNOWNV; binary = false; iface = NULL; entCount = 0; wlayer0 = false; dimstyleStd = false; writingBlock = false; currHandle = 0; } dxfRW::~dxfRW() { if( reader != NULL ) delete reader; if( writer != NULL ) delete writer; for( std::vector::iterator it = imageDef.begin(); it!=imageDef.end(); ++it ) delete *it; imageDef.clear(); } bool dxfRW::read( DRW_Interface* interface_, bool ext ) { assert( fileName.empty() == false ); bool isOk = false; applyExt = ext; std::ifstream filestr; if( interface_ == NULL ) return isOk; DBG( "dxfRW::read 1def\n" ); filestr.open( fileName.c_str(), std::ios_base::in | std::ios::binary ); if( !filestr.is_open() ) return isOk; if( !filestr.good() ) return isOk; char line[22]; char line2[22] = "AutoCAD Binary DXF\r\n"; line2[20] = (char) 26; line2[21] = '\0'; filestr.read( line, 22 ); filestr.close(); iface = interface_; DBG( "dxfRW::read 2\n" ); if( strcmp( line, line2 ) == 0 ) { filestr.open( fileName.c_str(), std::ios_base::in | std::ios::binary ); binary = true; // skip sentinel filestr.seekg( 22, std::ios::beg ); reader = new dxfReaderBinary( &filestr ); DBG( "dxfRW::read binary file\n" ); } else { binary = false; filestr.open( fileName.c_str(), std::ios_base::in ); reader = new dxfReaderAscii( &filestr ); } isOk = processDxf(); filestr.close(); delete reader; reader = NULL; return isOk; } bool dxfRW::write( DRW_Interface* interface_, DRW::Version ver, bool bin ) { bool isOk = false; std::ofstream filestr; version = ver; binary = bin; iface = interface_; if( binary ) { filestr.open( fileName.c_str(), std::ios_base::out | std::ios::binary | std::ios::trunc ); // write sentinel filestr << "AutoCAD Binary DXF\r\n" << (char) 26 << '\0'; writer = new dxfWriterBinary( &filestr ); DBG( "dxfRW::read binary file\n" ); } else { filestr.open( fileName.c_str(), std::ios_base::out | std::ios::trunc ); writer = new dxfWriterAscii( &filestr ); std::string comm = std::string( "dxfrw " ) + std::string( DRW_VERSION ); writer->writeString( 999, comm ); } DRW_Header header; iface->writeHeader( header ); writer->writeString( 0, "SECTION" ); entCount = FIRSTHANDLE; header.write( writer, version ); writer->writeString( 0, "ENDSEC" ); writer->writeString( 0, "SECTION" ); writer->writeString( 2, "CLASSES" ); writer->writeString( 0, "ENDSEC" ); writer->writeString( 0, "SECTION" ); writer->writeString( 2, "TABLES" ); writeTables(); writer->writeString( 0, "ENDSEC" ); writer->writeString( 0, "SECTION" ); writer->writeString( 2, "BLOCKS" ); writeBlocks(); writer->writeString( 0, "ENDSEC" ); writer->writeString( 0, "SECTION" ); writer->writeString( 2, "ENTITIES" ); iface->writeEntities(); writer->writeString( 0, "ENDSEC" ); if( version > DRW::AC1009 ) { writer->writeString( 0, "SECTION" ); writer->writeString( 2, "OBJECTS" ); writeObjects(); writer->writeString( 0, "ENDSEC" ); } writer->writeString( 0, "EOF" ); filestr.flush(); filestr.close(); isOk = true; delete writer; writer = NULL; return isOk; } bool dxfRW::writeEntity( DRW_Entity* ent ) { ent->handle = ++entCount; writer->writeString( 5, toHexStr( ent->handle ) ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbEntity" ); } if( ent->space == 1 ) writer->writeInt16( 67, 1 ); if( version > DRW::AC1009 ) { writer->writeUtf8String( 8, ent->layer ); writer->writeUtf8String( 6, ent->lineType ); } else { writer->writeUtf8Caps( 8, ent->layer ); writer->writeUtf8Caps( 6, ent->lineType ); } writer->writeInt16( 62, ent->color ); if( version > DRW::AC1015 && ent->color24 >= 0 ) { writer->writeInt32( 420, ent->color24 ); } if( version > DRW::AC1014 ) { writer->writeInt16( 370, DRW_LW_Conv::lineWidth2dxfInt( ent->lWeight ) ); } return true; } bool dxfRW::writeLineType( DRW_LType* ent ) { std::string strname = ent->name; transform( strname.begin(), strname.end(), strname.begin(), ::toupper ); // do not write linetypes handled by library if( strname == "BYLAYER" || strname == "BYBLOCK" || strname == "CONTINUOUS" ) { return true; } writer->writeString( 0, "LTYPE" ); if( version > DRW::AC1009 ) { writer->writeString( 5, toHexStr( ++entCount ) ); if( version > DRW::AC1012 ) { writer->writeString( 330, "5" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbLinetypeTableRecord" ); writer->writeUtf8String( 2, ent->name ); } else writer->writeUtf8Caps( 2, ent->name ); writer->writeInt16( 70, ent->flags ); writer->writeUtf8String( 3, ent->desc ); ent->update(); writer->writeInt16( 72, 65 ); writer->writeInt16( 73, ent->size ); writer->writeDouble( 40, ent->length ); for( unsigned int i = 0; i< ent->path.size(); i++ ) { writer->writeDouble( 49, ent->path.at( i ) ); if( version > DRW::AC1009 ) { writer->writeInt16( 74, 0 ); } } return true; } bool dxfRW::writeLayer( DRW_Layer* ent ) { writer->writeString( 0, "LAYER" ); if( !wlayer0 && ent->name == "0" ) { wlayer0 = true; if( version > DRW::AC1009 ) { writer->writeString( 5, "10" ); } } else { if( version > DRW::AC1009 ) { writer->writeString( 5, toHexStr( ++entCount ) ); } } if( version > DRW::AC1012 ) { writer->writeString( 330, "2" ); } if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbLayerTableRecord" ); writer->writeUtf8String( 2, ent->name ); } else { writer->writeUtf8Caps( 2, ent->name ); } writer->writeInt16( 70, ent->flags ); writer->writeInt16( 62, ent->color ); if( version > DRW::AC1015 && ent->color24 >= 0 ) { writer->writeInt32( 420, ent->color24 ); } if( version > DRW::AC1009 ) { writer->writeUtf8String( 6, ent->lineType ); if( !ent->plotF ) writer->writeBool( 290, ent->plotF ); writer->writeInt16( 370, DRW_LW_Conv::lineWidth2dxfInt( ent->lWeight ) ); writer->writeString( 390, "F" ); } else writer->writeUtf8Caps( 6, ent->lineType ); if( !ent->extData.empty() ) { writeExtData( ent->extData ); } // writer->writeString(347, "10012"); return true; } bool dxfRW::writeTextstyle( DRW_Textstyle* ent ) { writer->writeString( 0, "STYLE" ); if( !dimstyleStd ) { // stringstream cause crash in OS/X, bug#3597944 std::string name = ent->name; transform( name.begin(), name.end(), name.begin(), toupper ); if( name == "STANDARD" ) dimstyleStd = true; } if( version > DRW::AC1009 ) { writer->writeString( 5, toHexStr( ++entCount ) ); } if( version > DRW::AC1012 ) { writer->writeString( 330, "2" ); } if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbTextStyleTableRecord" ); writer->writeUtf8String( 2, ent->name ); } else { writer->writeUtf8Caps( 2, ent->name ); } writer->writeInt16( 70, ent->flags ); writer->writeDouble( 40, ent->height ); writer->writeDouble( 41, ent->width ); writer->writeDouble( 50, ent->oblique ); writer->writeInt16( 71, ent->genFlag ); writer->writeDouble( 42, ent->lastHeight ); if( version > DRW::AC1009 ) { writer->writeUtf8String( 3, ent->font ); writer->writeUtf8String( 4, ent->bigFont ); if( ent->fontFamily != 0 ) writer->writeInt32( 1071, ent->fontFamily ); } else { writer->writeUtf8Caps( 3, ent->font ); writer->writeUtf8Caps( 4, ent->bigFont ); } return true; } bool dxfRW::writeVport( DRW_Vport* ent ) { if( !dimstyleStd ) { ent->name = "*ACTIVE"; dimstyleStd = true; } writer->writeString( 0, "VPORT" ); if( version > DRW::AC1009 ) { writer->writeString( 5, toHexStr( ++entCount ) ); if( version > DRW::AC1012 ) writer->writeString( 330, "2" ); writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbViewportTableRecord" ); writer->writeUtf8String( 2, ent->name ); } else writer->writeUtf8Caps( 2, ent->name ); writer->writeInt16( 70, ent->flags ); writer->writeDouble( 10, ent->lowerLeft.x ); writer->writeDouble( 20, ent->lowerLeft.y ); writer->writeDouble( 11, ent->UpperRight.x ); writer->writeDouble( 21, ent->UpperRight.y ); writer->writeDouble( 12, ent->center.x ); writer->writeDouble( 22, ent->center.y ); writer->writeDouble( 13, ent->snapBase.x ); writer->writeDouble( 23, ent->snapBase.y ); writer->writeDouble( 14, ent->snapSpacing.x ); writer->writeDouble( 24, ent->snapSpacing.y ); writer->writeDouble( 15, ent->gridSpacing.x ); writer->writeDouble( 25, ent->gridSpacing.y ); writer->writeDouble( 16, ent->viewDir.x ); writer->writeDouble( 26, ent->viewDir.y ); writer->writeDouble( 36, ent->viewDir.z ); writer->writeDouble( 17, ent->viewTarget.z ); writer->writeDouble( 27, ent->viewTarget.z ); writer->writeDouble( 37, ent->viewTarget.z ); writer->writeDouble( 40, ent->height ); writer->writeDouble( 41, ent->ratio ); writer->writeDouble( 42, ent->lensHeight ); writer->writeDouble( 43, ent->frontClip ); writer->writeDouble( 44, ent->backClip ); writer->writeDouble( 50, ent->snapAngle ); writer->writeDouble( 51, ent->twistAngle ); writer->writeInt16( 71, ent->viewMode ); writer->writeInt16( 72, ent->circleZoom ); writer->writeInt16( 73, ent->fastZoom ); writer->writeInt16( 74, ent->ucsIcon ); writer->writeInt16( 75, ent->snap ); writer->writeInt16( 76, ent->grid ); writer->writeInt16( 77, ent->snapStyle ); writer->writeInt16( 78, ent->snapIsopair ); if( version > DRW::AC1014 ) { writer->writeInt16( 281, 0 ); writer->writeInt16( 65, 1 ); writer->writeDouble( 110, 0.0 ); writer->writeDouble( 120, 0.0 ); writer->writeDouble( 130, 0.0 ); writer->writeDouble( 111, 1.0 ); writer->writeDouble( 121, 0.0 ); writer->writeDouble( 131, 0.0 ); writer->writeDouble( 112, 0.0 ); writer->writeDouble( 122, 1.0 ); writer->writeDouble( 132, 0.0 ); writer->writeInt16( 79, 0 ); writer->writeDouble( 146, 0.0 ); if( version > DRW::AC1018 ) { writer->writeString( 348, "10020" ); writer->writeInt16( 60, ent->gridBehavior ); // v2007 undocummented see DRW_Vport class writer->writeInt16( 61, 5 ); writer->writeBool( 292, 1 ); writer->writeInt16( 282, 1 ); writer->writeDouble( 141, 0.0 ); writer->writeDouble( 142, 0.0 ); writer->writeInt16( 63, 250 ); writer->writeInt32( 421, 3358443 ); } } return true; } bool dxfRW::writeDimstyle( DRW_Dimstyle* ent ) { writer->writeString( 0, "DIMSTYLE" ); if( !dimstyleStd ) { std::string name = ent->name; std::transform( name.begin(), name.end(), name.begin(), ::toupper ); if( name == "STANDARD" ) dimstyleStd = true; } if( version > DRW::AC1009 ) { writer->writeString( 105, toHexStr( ++entCount ) ); } if( version > DRW::AC1012 ) { writer->writeString( 330, "A" ); } if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbDimStyleTableRecord" ); writer->writeUtf8String( 2, ent->name ); } else writer->writeUtf8Caps( 2, ent->name ); writer->writeInt16( 70, ent->flags ); if( version == DRW::AC1009 || !( ent->dimpost.empty() ) ) writer->writeUtf8String( 3, ent->dimpost ); if( version == DRW::AC1009 || !( ent->dimapost.empty() ) ) writer->writeUtf8String( 4, ent->dimapost ); if( version == DRW::AC1009 || !( ent->dimblk.empty() ) ) writer->writeUtf8String( 5, ent->dimblk ); if( version == DRW::AC1009 || !( ent->dimblk1.empty() ) ) writer->writeUtf8String( 6, ent->dimblk1 ); if( version == DRW::AC1009 || !( ent->dimblk2.empty() ) ) writer->writeUtf8String( 7, ent->dimblk2 ); writer->writeDouble( 40, ent->dimscale ); writer->writeDouble( 41, ent->dimasz ); writer->writeDouble( 42, ent->dimexo ); writer->writeDouble( 43, ent->dimdli ); writer->writeDouble( 44, ent->dimexe ); writer->writeDouble( 45, ent->dimrnd ); writer->writeDouble( 46, ent->dimdle ); writer->writeDouble( 47, ent->dimtp ); writer->writeDouble( 48, ent->dimtm ); writer->writeDouble( 140, ent->dimtxt ); writer->writeDouble( 141, ent->dimcen ); writer->writeDouble( 142, ent->dimtsz ); writer->writeDouble( 143, ent->dimaltf ); writer->writeDouble( 144, ent->dimlfac ); writer->writeDouble( 145, ent->dimtvp ); writer->writeDouble( 146, ent->dimtfac ); writer->writeDouble( 147, ent->dimgap ); if( version > DRW::AC1014 ) { writer->writeDouble( 148, ent->dimaltrnd ); } writer->writeInt16( 71, ent->dimtol ); writer->writeInt16( 72, ent->dimlim ); writer->writeInt16( 73, ent->dimtih ); writer->writeInt16( 74, ent->dimtoh ); writer->writeInt16( 75, ent->dimse1 ); writer->writeInt16( 76, ent->dimse2 ); writer->writeInt16( 77, ent->dimtad ); writer->writeInt16( 78, ent->dimzin ); if( version > DRW::AC1014 ) { writer->writeInt16( 79, ent->dimazin ); } writer->writeInt16( 170, ent->dimalt ); writer->writeInt16( 171, ent->dimaltd ); writer->writeInt16( 172, ent->dimtofl ); writer->writeInt16( 173, ent->dimsah ); writer->writeInt16( 174, ent->dimtix ); writer->writeInt16( 175, ent->dimsoxd ); writer->writeInt16( 176, ent->dimclrd ); writer->writeInt16( 177, ent->dimclre ); writer->writeInt16( 178, ent->dimclrt ); if( version > DRW::AC1014 ) { writer->writeInt16( 179, ent->dimadec ); } if( version > DRW::AC1009 ) { if( version < DRW::AC1015 ) writer->writeInt16( 270, ent->dimunit ); writer->writeInt16( 271, ent->dimdec ); writer->writeInt16( 272, ent->dimtdec ); writer->writeInt16( 273, ent->dimaltu ); writer->writeInt16( 274, ent->dimalttd ); writer->writeInt16( 275, ent->dimaunit ); } if( version > DRW::AC1014 ) { writer->writeInt16( 276, ent->dimfrac ); writer->writeInt16( 277, ent->dimlunit ); writer->writeInt16( 278, ent->dimdsep ); writer->writeInt16( 279, ent->dimtmove ); } if( version > DRW::AC1009 ) { writer->writeInt16( 280, ent->dimjust ); writer->writeInt16( 281, ent->dimsd1 ); writer->writeInt16( 282, ent->dimsd2 ); writer->writeInt16( 283, ent->dimtolj ); writer->writeInt16( 284, ent->dimtzin ); writer->writeInt16( 285, ent->dimaltz ); writer->writeInt16( 286, ent->dimaltttz ); if( version < DRW::AC1015 ) writer->writeInt16( 287, ent->dimfit ); writer->writeInt16( 288, ent->dimupt ); } if( version > DRW::AC1014 ) { writer->writeInt16( 289, ent->dimatfit ); } if( version > DRW::AC1009 ) { writer->writeUtf8String( 340, ent->dimtxsty ); } if( version > DRW::AC1014 ) { writer->writeUtf8String( 341, ent->dimldrblk ); writer->writeInt16( 371, ent->dimlwd ); writer->writeInt16( 372, ent->dimlwe ); } return true; } bool dxfRW::writeAppId( DRW_AppId* ent ) { writer->writeString( 0, "APPID" ); if( version > DRW::AC1009 ) { writer->writeString( 5, toHexStr( ++entCount ) ); if( version > DRW::AC1014 ) { writer->writeString( 330, "9" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbRegAppTableRecord" ); writer->writeUtf8String( 2, ent->name ); } else { writer->writeUtf8Caps( 2, ent->name ); } writer->writeInt16( 70, ent->flags ); return true; } bool dxfRW::writePoint( DRW_Point* ent ) { writer->writeString( 0, "POINT" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbPoint" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); if( ent->basePoint.z != 0.0 ) { writer->writeDouble( 30, ent->basePoint.z ); } return true; } bool dxfRW::writeLine( DRW_Line* ent ) { writer->writeString( 0, "LINE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbLine" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); if( ent->basePoint.z != 0.0 || ent->secPoint.z != 0.0 ) { writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); writer->writeDouble( 31, ent->secPoint.z ); } else { writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); } return true; } bool dxfRW::writeRay( DRW_Ray* ent ) { writer->writeString( 0, "RAY" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbRay" ); } DRW_Coord crd = ent->secPoint; crd.unitize(); writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); if( ent->basePoint.z != 0.0 || ent->secPoint.z != 0.0 ) { writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, crd.x ); writer->writeDouble( 21, crd.y ); writer->writeDouble( 31, crd.z ); } else { writer->writeDouble( 11, crd.x ); writer->writeDouble( 21, crd.y ); } return true; } bool dxfRW::writeXline( DRW_Xline* ent ) { writer->writeString( 0, "XLINE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbXline" ); } DRW_Coord crd = ent->secPoint; crd.unitize(); writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); if( ent->basePoint.z != 0.0 || ent->secPoint.z != 0.0 ) { writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, crd.x ); writer->writeDouble( 21, crd.y ); writer->writeDouble( 31, crd.z ); } else { writer->writeDouble( 11, crd.x ); writer->writeDouble( 21, crd.y ); } return true; } bool dxfRW::writeCircle( DRW_Circle* ent ) { writer->writeString( 0, "CIRCLE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbCircle" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); if( ent->basePoint.z != 0.0 ) { writer->writeDouble( 30, ent->basePoint.z ); } writer->writeDouble( 40, ent->radious ); return true; } bool dxfRW::writeArc( DRW_Arc* ent ) { writer->writeString( 0, "ARC" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbCircle" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); if( ent->basePoint.z != 0.0 ) { writer->writeDouble( 30, ent->basePoint.z ); } writer->writeDouble( 40, ent->radious ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbArc" ); } writer->writeDouble( 50, ent->staangle * ARAD ); writer->writeDouble( 51, ent->endangle * ARAD ); return true; } bool dxfRW::writeEllipse( DRW_Ellipse* ent ) { // verify axis/ratio and params for full ellipse ent->correctAxis(); if( version > DRW::AC1009 ) { writer->writeString( 0, "ELLIPSE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbEllipse" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); writer->writeDouble( 31, ent->secPoint.z ); writer->writeDouble( 40, ent->ratio ); writer->writeDouble( 41, ent->staparam ); writer->writeDouble( 42, ent->endparam ); } else { DRW_Polyline pol; // RLZ: copy properties ent->toPolyline( &pol, elParts ); writePolyline( &pol ); } return true; } bool dxfRW::writeTrace( DRW_Trace* ent ) { writer->writeString( 0, "TRACE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbTrace" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); writer->writeDouble( 31, ent->secPoint.z ); writer->writeDouble( 12, ent->thirdPoint.x ); writer->writeDouble( 22, ent->thirdPoint.y ); writer->writeDouble( 32, ent->thirdPoint.z ); writer->writeDouble( 13, ent->fourPoint.x ); writer->writeDouble( 23, ent->fourPoint.y ); writer->writeDouble( 33, ent->fourPoint.z ); return true; } bool dxfRW::writeSolid( DRW_Solid* ent ) { writer->writeString( 0, "SOLID" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbTrace" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); writer->writeDouble( 31, ent->secPoint.z ); writer->writeDouble( 12, ent->thirdPoint.x ); writer->writeDouble( 22, ent->thirdPoint.y ); writer->writeDouble( 32, ent->thirdPoint.z ); writer->writeDouble( 13, ent->fourPoint.x ); writer->writeDouble( 23, ent->fourPoint.y ); writer->writeDouble( 33, ent->fourPoint.z ); return true; } bool dxfRW::write3dface( DRW_3Dface* ent ) { writer->writeString( 0, "3DFACE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbFace" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); writer->writeDouble( 31, ent->secPoint.z ); writer->writeDouble( 12, ent->thirdPoint.x ); writer->writeDouble( 22, ent->thirdPoint.y ); writer->writeDouble( 32, ent->thirdPoint.z ); writer->writeDouble( 13, ent->fourPoint.x ); writer->writeDouble( 23, ent->fourPoint.y ); writer->writeDouble( 33, ent->fourPoint.z ); writer->writeInt16( 70, ent->invisibleflag ); return true; } bool dxfRW::writeLWPolyline( DRW_LWPolyline* ent ) { if( version > DRW::AC1009 ) { writer->writeString( 0, "LWPOLYLINE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbPolyline" ); } ent->vertexnum = ent->vertlist.size(); writer->writeInt32( 90, ent->vertexnum ); writer->writeInt16( 70, ent->flags ); writer->writeDouble( 43, ent->width ); if( ent->elevation != 0 ) writer->writeDouble( 38, ent->elevation ); if( ent->thickness != 0 ) writer->writeDouble( 39, ent->thickness ); for( int i = 0; i< ent->vertexnum; i++ ) { DRW_Vertex2D* v = ent->vertlist.at( i ); writer->writeDouble( 10, v->x ); writer->writeDouble( 20, v->y ); if( v->stawidth != 0 ) writer->writeDouble( 40, v->stawidth ); if( v->endwidth != 0 ) writer->writeDouble( 41, v->endwidth ); if( v->bulge != 0 ) writer->writeDouble( 42, v->bulge ); } } else { // RLZ: TODO convert lwpolyline in polyline (not exist in acad 12) } return true; } bool dxfRW::writePolyline( DRW_Polyline* ent ) { writer->writeString( 0, "POLYLINE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { if( ent->flags & 8 || ent->flags & 16 ) writer->writeString( 100, "AcDb2dPolyline" ); else writer->writeString( 100, "AcDb3dPolyline" ); } else writer->writeInt16( 66, 1 ); writer->writeDouble( 10, 0.0 ); writer->writeDouble( 20, 0.0 ); writer->writeDouble( 30, ent->basePoint.z ); if( ent->thickness != 0 ) { writer->writeDouble( 39, ent->thickness ); } writer->writeInt16( 70, ent->flags ); if( ent->defstawidth != 0 ) { writer->writeDouble( 40, ent->defstawidth ); } if( ent->defendwidth != 0 ) { writer->writeDouble( 41, ent->defendwidth ); } if( ent->flags & 16 || ent->flags & 32 ) { writer->writeInt16( 71, ent->vertexcount ); writer->writeInt16( 72, ent->facecount ); } if( ent->smoothM != 0 ) { writer->writeInt16( 73, ent->smoothM ); } if( ent->smoothN != 0 ) { writer->writeInt16( 74, ent->smoothN ); } if( ent->curvetype != 0 ) { writer->writeInt16( 75, ent->curvetype ); } DRW_Coord crd = ent->extPoint; if( crd.x != 0 || crd.y != 0 || crd.z != 1 ) { writer->writeDouble( 210, crd.x ); writer->writeDouble( 220, crd.y ); writer->writeDouble( 230, crd.z ); } int vertexnum = ent->vertlist.size(); for( int i = 0; i< vertexnum; i++ ) { DRW_Vertex* v = ent->vertlist.at( i ); writer->writeString( 0, "VERTEX" ); writeEntity( ent ); if( version > DRW::AC1009 ) writer->writeString( 100, "AcDbVertex" ); if( (v->flags & 128) && !(v->flags & 64) ) { writer->writeDouble( 10, 0 ); writer->writeDouble( 20, 0 ); writer->writeDouble( 30, 0 ); } else { writer->writeDouble( 10, v->basePoint.x ); writer->writeDouble( 20, v->basePoint.y ); writer->writeDouble( 30, v->basePoint.z ); } if( v->stawidth != 0 ) writer->writeDouble( 40, v->stawidth ); if( v->endwidth != 0 ) writer->writeDouble( 41, v->endwidth ); if( v->bulge != 0 ) writer->writeDouble( 42, v->bulge ); if( v->flags != 0 ) { writer->writeInt16( 70, ent->flags ); } if( v->flags & 2 ) { writer->writeDouble( 50, v->tgdir ); } if( v->flags & 128 ) { if( v->vindex1 != 0 ) { writer->writeInt16( 71, v->vindex1 ); } if( v->vindex2 != 0 ) { writer->writeInt16( 72, v->vindex2 ); } if( v->vindex3 != 0 ) { writer->writeInt16( 73, v->vindex3 ); } if( v->vindex4 != 0 ) { writer->writeInt16( 74, v->vindex4 ); } if( !(v->flags & 64) ) { writer->writeInt32( 91, v->identifier ); } } } writer->writeString( 0, "SEQEND" ); writeEntity( ent ); return true; } bool dxfRW::writeSpline( DRW_Spline* ent ) { if( version > DRW::AC1009 ) { writer->writeString( 0, "SPLINE" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbSpline" ); } writer->writeDouble( 210, ent->ex ); writer->writeDouble( 220, ent->ey ); writer->writeDouble( 230, ent->ez ); writer->writeInt16( 70, ent->flags ); writer->writeInt16( 71, ent->degree ); writer->writeInt16( 72, ent->nknots ); writer->writeInt16( 73, ent->ncontrol ); writer->writeInt16( 74, ent->nfit ); writer->writeDouble( 42, ent->tolknot ); writer->writeDouble( 43, ent->tolcontrol ); // RLZ: warning check if nknots are correct and ncontrol for( int i = 0; i< ent->nknots; i++ ) { writer->writeDouble( 40, ent->knotslist.at( i ) ); } for( int i = 0; i< ent->ncontrol; i++ ) { DRW_Coord* crd = ent->controllist.at( i ); writer->writeDouble( 10, crd->x ); writer->writeDouble( 20, crd->y ); writer->writeDouble( 30, crd->z ); } } else { // RLZ: TODO convert spline in polyline (not exist in acad 12) } return true; } bool dxfRW::writeHatch( DRW_Hatch* ent ) { if( version > DRW::AC1009 ) { writer->writeString( 0, "HATCH" ); writeEntity( ent ); writer->writeString( 100, "AcDbHatch" ); writer->writeDouble( 10, 0.0 ); writer->writeDouble( 20, 0.0 ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 210, ent->extPoint.x ); writer->writeDouble( 220, ent->extPoint.y ); writer->writeDouble( 230, ent->extPoint.z ); writer->writeString( 2, ent->name ); writer->writeInt16( 70, ent->solid ); writer->writeInt16( 71, ent->associative ); ent->loopsnum = ent->looplist.size(); writer->writeInt16( 91, ent->loopsnum ); // write paths data for( int i = 0; i< ent->loopsnum; i++ ) { DRW_HatchLoop* loop = ent->looplist.at( i ); writer->writeInt16( 92, loop->type ); if( (loop->type & 2) == 2 ) { // RLZ: polyline boundary writeme } else { // boundary path loop->update(); writer->writeInt16( 93, loop->numedges ); for( int j = 0; jnumedges; ++j ) { switch( ( loop->objlist.at( j ) )->eType ) { case DRW::LINE: { writer->writeInt16( 72, 1 ); DRW_Line* l = (DRW_Line*) loop->objlist.at( j ); writer->writeDouble( 10, l->basePoint.x ); writer->writeDouble( 20, l->basePoint.y ); writer->writeDouble( 11, l->secPoint.x ); writer->writeDouble( 21, l->secPoint.y ); break; } case DRW::ARC: { writer->writeInt16( 72, 2 ); DRW_Arc* a = (DRW_Arc*) loop->objlist.at( j ); writer->writeDouble( 10, a->basePoint.x ); writer->writeDouble( 20, a->basePoint.y ); writer->writeDouble( 40, a->radious ); writer->writeDouble( 50, a->staangle * ARAD ); writer->writeDouble( 51, a->endangle * ARAD ); writer->writeInt16( 73, a->isccw ); break; } case DRW::ELLIPSE: { writer->writeInt16( 72, 3 ); DRW_Ellipse* a = (DRW_Ellipse*) loop->objlist.at( j ); a->correctAxis(); writer->writeDouble( 10, a->basePoint.x ); writer->writeDouble( 20, a->basePoint.y ); writer->writeDouble( 11, a->secPoint.x ); writer->writeDouble( 21, a->secPoint.y ); writer->writeDouble( 40, a->ratio ); writer->writeDouble( 50, a->staparam * ARAD ); writer->writeDouble( 51, a->endparam * ARAD ); writer->writeInt16( 73, a->isccw ); break; } case DRW::SPLINE: // RLZ: spline boundary writeme // writer->writeInt16(72, 4); break; default: break; } } writer->writeInt16( 97, 0 ); } } writer->writeInt16( 75, ent->hstyle ); writer->writeInt16( 76, ent->hpattern ); if( !ent->solid ) { writer->writeDouble( 52, ent->angle ); writer->writeDouble( 41, ent->scale ); writer->writeInt16( 77, ent->doubleflag ); writer->writeInt16( 78, ent->deflines ); } /* if (ent->deflines > 0){ * writer->writeInt16(78, ent->deflines); * }*/ writer->writeInt32( 98, 0 ); } else { // RLZ: TODO verify in acad12 } return true; } bool dxfRW::writeLeader( DRW_Leader* ent ) { if( version > DRW::AC1009 ) { writer->writeString( 0, "LEADER" ); writeEntity( ent ); writer->writeString( 100, "AcDbLeader" ); writer->writeUtf8String( 3, ent->style ); writer->writeInt16( 71, ent->arrow ); writer->writeInt16( 72, ent->leadertype ); writer->writeInt16( 73, ent->flag ); writer->writeInt16( 74, ent->hookline ); writer->writeInt16( 75, ent->hookflag ); writer->writeDouble( 40, ent->textheight ); writer->writeDouble( 41, ent->textwidth ); writer->writeDouble( 76, ent->vertnum ); writer->writeDouble( 76, ent->vertexlist.size() ); for( unsigned int i = 0; ivertexlist.size(); i++ ) { DRW_Coord* vert = ent->vertexlist.at( i ); writer->writeDouble( 10, vert->x ); writer->writeDouble( 20, vert->y ); writer->writeDouble( 30, vert->z ); } } else { // RLZ: todo not supported by acad 12 saved as unnamed block } return true; } bool dxfRW::writeDimension( DRW_Dimension* ent ) { if( version > DRW::AC1009 ) { writer->writeString( 0, "DIMENSION" ); writeEntity( ent ); writer->writeString( 100, "AcDbDimension" ); if( !ent->getName().empty() ) { writer->writeString( 2, ent->getName() ); } writer->writeDouble( 10, ent->getDefPoint().x ); writer->writeDouble( 20, ent->getDefPoint().y ); writer->writeDouble( 30, ent->getDefPoint().z ); writer->writeDouble( 11, ent->getTextPoint().x ); writer->writeDouble( 21, ent->getTextPoint().y ); writer->writeDouble( 31, ent->getTextPoint().z ); if( !(ent->type & 32) ) ent->type = ent->type + 32; writer->writeInt16( 70, ent->type ); if( !( ent->getText().empty() ) ) writer->writeUtf8String( 1, ent->getText() ); writer->writeInt16( 71, ent->getAlign() ); if( ent->getTextLineStyle() != 1 ) writer->writeInt16( 72, ent->getTextLineStyle() ); if( ent->getTextLineFactor() != 1 ) writer->writeDouble( 41, ent->getTextLineFactor() ); writer->writeUtf8String( 3, ent->getStyle() ); if( ent->getDir() != 0 ) writer->writeDouble( 53, ent->getDir() ); writer->writeDouble( 210, ent->getExtrusion().x ); writer->writeDouble( 220, ent->getExtrusion().y ); writer->writeDouble( 230, ent->getExtrusion().z ); switch( ent->eType ) { case DRW::DIMALIGNED: case DRW::DIMLINEAR: { DRW_DimAligned* dd = (DRW_DimAligned*) ent; writer->writeString( 100, "AcDbAlignedDimension" ); DRW_Coord crd = dd->getClonepoint(); if( crd.x != 0 || crd.y != 0 || crd.z != 0 ) { writer->writeDouble( 12, crd.x ); writer->writeDouble( 22, crd.y ); writer->writeDouble( 32, crd.z ); } writer->writeDouble( 13, dd->getDef1Point().x ); writer->writeDouble( 23, dd->getDef1Point().y ); writer->writeDouble( 33, dd->getDef1Point().z ); writer->writeDouble( 14, dd->getDef2Point().x ); writer->writeDouble( 24, dd->getDef2Point().y ); writer->writeDouble( 34, dd->getDef2Point().z ); if( ent->eType == DRW::DIMLINEAR ) { DRW_DimLinear* dl = (DRW_DimLinear*) ent; if( dl->getAngle() != 0 ) writer->writeDouble( 50, dl->getAngle() ); if( dl->getOblique() != 0 ) writer->writeDouble( 52, dl->getOblique() ); writer->writeString( 100, "AcDbRotatedDimension" ); } break; } case DRW::DIMRADIAL: { DRW_DimRadial* dd = (DRW_DimRadial*) ent; writer->writeString( 100, "AcDbRadialDimension" ); writer->writeDouble( 15, dd->getDiameterPoint().x ); writer->writeDouble( 25, dd->getDiameterPoint().y ); writer->writeDouble( 35, dd->getDiameterPoint().z ); writer->writeDouble( 40, dd->getLeaderLength() ); break; } case DRW::DIMDIAMETRIC: { DRW_DimDiametric* dd = (DRW_DimDiametric*) ent; writer->writeString( 100, "AcDbDiametricDimension" ); writer->writeDouble( 15, dd->getDiameter1Point().x ); writer->writeDouble( 25, dd->getDiameter1Point().y ); writer->writeDouble( 35, dd->getDiameter1Point().z ); writer->writeDouble( 40, dd->getLeaderLength() ); break; } case DRW::DIMANGULAR: { DRW_DimAngular* dd = (DRW_DimAngular*) ent; writer->writeString( 100, "AcDb2LineAngularDimension" ); writer->writeDouble( 13, dd->getFirstLine1().x ); writer->writeDouble( 23, dd->getFirstLine1().y ); writer->writeDouble( 33, dd->getFirstLine1().z ); writer->writeDouble( 14, dd->getFirstLine2().x ); writer->writeDouble( 24, dd->getFirstLine2().y ); writer->writeDouble( 34, dd->getFirstLine2().z ); writer->writeDouble( 15, dd->getSecondLine1().x ); writer->writeDouble( 25, dd->getSecondLine1().y ); writer->writeDouble( 35, dd->getSecondLine1().z ); writer->writeDouble( 16, dd->getDimPoint().x ); writer->writeDouble( 26, dd->getDimPoint().y ); writer->writeDouble( 36, dd->getDimPoint().z ); break; } case DRW::DIMANGULAR3P: { DRW_DimAngular3p* dd = (DRW_DimAngular3p*) ent; writer->writeDouble( 13, dd->getFirstLine().x ); writer->writeDouble( 23, dd->getFirstLine().y ); writer->writeDouble( 33, dd->getFirstLine().z ); writer->writeDouble( 14, dd->getSecondLine().x ); writer->writeDouble( 24, dd->getSecondLine().y ); writer->writeDouble( 34, dd->getSecondLine().z ); writer->writeDouble( 15, dd->getVertexPoint().x ); writer->writeDouble( 25, dd->getVertexPoint().y ); writer->writeDouble( 35, dd->getVertexPoint().z ); break; } case DRW::DIMORDINATE: { DRW_DimOrdinate* dd = (DRW_DimOrdinate*) ent; writer->writeString( 100, "AcDbOrdinateDimension" ); writer->writeDouble( 13, dd->getFirstLine().x ); writer->writeDouble( 23, dd->getFirstLine().y ); writer->writeDouble( 33, dd->getFirstLine().z ); writer->writeDouble( 14, dd->getSecondLine().x ); writer->writeDouble( 24, dd->getSecondLine().y ); writer->writeDouble( 34, dd->getSecondLine().z ); break; } default: break; } } else { // RLZ: todo not supported by acad 12 saved as unnamed block } return true; } bool dxfRW::writeInsert( DRW_Insert* ent ) { writer->writeString( 0, "INSERT" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbBlockReference" ); writer->writeUtf8String( 2, ent->name ); } else writer->writeUtf8Caps( 2, ent->name ); writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 41, ent->xscale ); writer->writeDouble( 42, ent->yscale ); writer->writeDouble( 43, ent->zscale ); writer->writeDouble( 50, ent->angle ); writer->writeInt16( 70, ent->colcount ); writer->writeInt16( 71, ent->rowcount ); writer->writeDouble( 44, ent->colspace ); writer->writeDouble( 45, ent->rowspace ); return true; } bool dxfRW::writeText( DRW_Text* ent ) { writer->writeString( 0, "TEXT" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbText" ); } // writer->writeDouble(39, ent->thickness); writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 40, ent->height ); writer->writeUtf8String( 1, ent->text ); writer->writeDouble( 50, ent->angle ); writer->writeDouble( 41, ent->widthscale ); writer->writeDouble( 51, ent->oblique ); if( version > DRW::AC1009 ) writer->writeUtf8String( 7, ent->style ); else writer->writeUtf8Caps( 7, ent->style ); writer->writeInt16( 71, ent->textgen ); if( ent->alignH != DRW_Text::HLeft ) { writer->writeInt16( 72, ent->alignH ); } if( ent->alignH != DRW_Text::HLeft || ent->alignV != DRW_Text::VBaseLine ) { writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); writer->writeDouble( 31, ent->secPoint.z ); } writer->writeDouble( 210, ent->extPoint.x ); writer->writeDouble( 220, ent->extPoint.y ); writer->writeDouble( 230, ent->extPoint.z ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbText" ); } if( ent->alignV != DRW_Text::VBaseLine ) { writer->writeInt16( 73, ent->alignV ); } return true; } bool dxfRW::writeMText( DRW_MText* ent ) { if( version > DRW::AC1009 ) { writer->writeString( 0, "MTEXT" ); writeEntity( ent ); writer->writeString( 100, "AcDbMText" ); writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 40, ent->height ); writer->writeDouble( 41, ent->widthscale ); writer->writeInt16( 71, ent->textgen ); writer->writeInt16( 72, ent->alignH ); std::string text = writer->fromUtf8String( ent->text ); int i; for( i = 0; (text.size() - i) > 250; ) { writer->writeString( 3, text.substr( i, 250 ) ); i += 250; } writer->writeString( 1, text.substr( i ) ); writer->writeString( 7, ent->style ); writer->writeDouble( 210, ent->extPoint.x ); writer->writeDouble( 220, ent->extPoint.y ); writer->writeDouble( 230, ent->extPoint.z ); writer->writeDouble( 50, ent->angle ); writer->writeInt16( 73, ent->alignV ); writer->writeDouble( 44, ent->interlin ); // RLZ ... 11, 21, 31 needed? } else { // RLZ: TODO convert mtext in text lines (not exist in acad 12) } return true; } bool dxfRW::writeViewport( DRW_Viewport* ent ) { writer->writeString( 0, "VIEWPORT" ); writeEntity( ent ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbViewport" ); } writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); if( ent->basePoint.z != 0.0 ) writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 40, ent->pswidth ); writer->writeDouble( 41, ent->psheight ); writer->writeInt16( 68, ent->vpstatus ); writer->writeInt16( 69, ent->vpID ); writer->writeDouble( 12, ent->centerPX ); // RLZ: verify if exist in V12 writer->writeDouble( 22, ent->centerPY ); // RLZ: verify if exist in V12 return true; } DRW_ImageDef* dxfRW::writeImage( DRW_Image* ent, std::string name ) { if( version > DRW::AC1009 ) { // search if exist imagedef with this mane (image inserted more than 1 time) // RLZ: imagedef_reactor seem needed to read in acad DRW_ImageDef* id = NULL; for( unsigned int i = 0; iname == name ) { id = imageDef.at( i ); continue; } } if( id == NULL ) { id = new DRW_ImageDef(); imageDef.push_back( id ); id->handle = toHexStr( ++entCount ); } id->name = name; std::string idReactor = toHexStr( ++entCount ); writer->writeString( 0, "IMAGE" ); writeEntity( ent ); writer->writeString( 100, "AcDbRasterImage" ); writer->writeDouble( 10, ent->basePoint.x ); writer->writeDouble( 20, ent->basePoint.y ); writer->writeDouble( 30, ent->basePoint.z ); writer->writeDouble( 11, ent->secPoint.x ); writer->writeDouble( 21, ent->secPoint.y ); writer->writeDouble( 31, ent->secPoint.z ); writer->writeDouble( 12, ent->vx ); writer->writeDouble( 22, ent->vy ); writer->writeDouble( 32, ent->vz ); writer->writeDouble( 13, ent->sizeu ); writer->writeDouble( 23, ent->sizev ); writer->writeString( 340, id->handle ); writer->writeInt16( 70, 1 ); writer->writeInt16( 280, ent->clip ); writer->writeInt16( 281, ent->brightness ); writer->writeInt16( 282, ent->contrast ); writer->writeInt16( 283, ent->fade ); writer->writeString( 360, idReactor ); id->reactors[idReactor] = toHexStr( ent->handle ); return id; } return NULL; // not exist in acad 12 } bool dxfRW::writeBlockRecord( std::string name ) { if( version > DRW::AC1009 ) { writer->writeString( 0, "BLOCK_RECORD" ); writer->writeString( 5, toHexStr( ++entCount ) ); blockMap[name] = entCount; entCount = 2 + entCount; // reserve 2 for BLOCK & ENDBLOCK if( version > DRW::AC1014 ) { writer->writeString( 330, "1" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbBlockTableRecord" ); writer->writeUtf8String( 2, name ); if( version > DRW::AC1018 ) { // writer->writeInt16(340, 22); writer->writeInt16( 70, 0 ); writer->writeInt16( 280, 1 ); writer->writeInt16( 281, 0 ); } } return true; } bool dxfRW::writeBlock( DRW_Block* bk ) { if( writingBlock ) { writer->writeString( 0, "ENDBLK" ); if( version > DRW::AC1009 ) { writer->writeString( 5, toHexStr( currHandle + 2 ) ); if( version > DRW::AC1014 ) { writer->writeString( 330, toHexStr( currHandle ) ); } writer->writeString( 100, "AcDbEntity" ); } writer->writeString( 8, "0" ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbBlockEnd" ); } } writingBlock = true; writer->writeString( 0, "BLOCK" ); if( version > DRW::AC1009 ) { currHandle = ( *( blockMap.find( bk->name ) ) ).second; writer->writeString( 5, toHexStr( currHandle + 1 ) ); if( version > DRW::AC1014 ) { writer->writeString( 330, toHexStr( currHandle ) ); } writer->writeString( 100, "AcDbEntity" ); } writer->writeString( 8, "0" ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbBlockBegin" ); writer->writeUtf8String( 2, bk->name ); } else writer->writeUtf8Caps( 2, bk->name ); writer->writeInt16( 70, bk->flags ); writer->writeDouble( 10, bk->basePoint.x ); writer->writeDouble( 20, bk->basePoint.y ); if( bk->basePoint.z != 0.0 ) { writer->writeDouble( 30, bk->basePoint.z ); } if( version > DRW::AC1009 ) writer->writeUtf8String( 3, bk->name ); else writer->writeUtf8Caps( 3, bk->name ); writer->writeString( 1, "" ); return true; } bool dxfRW::writeTables() { writer->writeString( 0, "TABLE" ); writer->writeString( 2, "VPORT" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "8" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 1 ); // end table def /*** VPORT ***/ dimstyleStd = false; iface->writeVports(); if( !dimstyleStd ) { DRW_Vport portact; portact.name = "*ACTIVE"; writeVport( &portact ); } writer->writeString( 0, "ENDTAB" ); /*** LTYPE ***/ writer->writeString( 0, "TABLE" ); writer->writeString( 2, "LTYPE" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "5" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 4 ); // end table def // Mandatory linetypes writer->writeString( 0, "LTYPE" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "14" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "5" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbLinetypeTableRecord" ); writer->writeString( 2, "ByBlock" ); } else writer->writeString( 2, "BYBLOCK" ); writer->writeInt16( 70, 0 ); writer->writeString( 3, "" ); writer->writeInt16( 72, 65 ); writer->writeInt16( 73, 0 ); writer->writeDouble( 40, 0.0 ); writer->writeString( 0, "LTYPE" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "15" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "5" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbLinetypeTableRecord" ); writer->writeString( 2, "ByLayer" ); } else writer->writeString( 2, "BYLAYER" ); writer->writeInt16( 70, 0 ); writer->writeString( 3, "" ); writer->writeInt16( 72, 65 ); writer->writeInt16( 73, 0 ); writer->writeDouble( 40, 0.0 ); writer->writeString( 0, "LTYPE" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "16" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "5" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbLinetypeTableRecord" ); writer->writeString( 2, "Continuous" ); } else { writer->writeString( 2, "CONTINUOUS" ); } writer->writeInt16( 70, 0 ); writer->writeString( 3, "Solid line" ); writer->writeInt16( 72, 65 ); writer->writeInt16( 73, 0 ); writer->writeDouble( 40, 0.0 ); // Aplication linetypes iface->writeLTypes(); writer->writeString( 0, "ENDTAB" ); /*** LAYER ***/ writer->writeString( 0, "TABLE" ); writer->writeString( 2, "LAYER" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "2" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 1 ); // end table def wlayer0 = false; iface->writeLayers(); if( !wlayer0 ) { DRW_Layer lay0; lay0.name = "0"; writeLayer( &lay0 ); } writer->writeString( 0, "ENDTAB" ); /*** STYLE ***/ writer->writeString( 0, "TABLE" ); writer->writeString( 2, "STYLE" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "3" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 3 ); // end table def dimstyleStd = false; iface->writeTextstyles(); if( !dimstyleStd ) { DRW_Textstyle tsty; tsty.name = "Standard"; writeTextstyle( &tsty ); } writer->writeString( 0, "ENDTAB" ); writer->writeString( 0, "TABLE" ); writer->writeString( 2, "VIEW" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "6" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 0 ); // end table def writer->writeString( 0, "ENDTAB" ); writer->writeString( 0, "TABLE" ); writer->writeString( 2, "UCS" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "7" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 0 ); // end table def writer->writeString( 0, "ENDTAB" ); writer->writeString( 0, "TABLE" ); writer->writeString( 2, "APPID" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "9" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 1 ); // end table def writer->writeString( 0, "APPID" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "12" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "9" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbRegAppTableRecord" ); } writer->writeString( 2, "ACAD" ); writer->writeInt16( 70, 0 ); iface->writeAppId(); writer->writeString( 0, "ENDTAB" ); writer->writeString( 0, "TABLE" ); writer->writeString( 2, "DIMSTYLE" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "A" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); } writer->writeInt16( 70, 1 ); // end table def if( version > DRW::AC1014 ) { writer->writeString( 100, "AcDbDimStyleTable" ); writer->writeInt16( 71, 1 ); // end table def } dimstyleStd = false; iface->writeDimstyles(); if( !dimstyleStd ) { DRW_Dimstyle dsty; dsty.name = "Standard"; writeDimstyle( &dsty ); } writer->writeString( 0, "ENDTAB" ); if( version > DRW::AC1009 ) { writer->writeString( 0, "TABLE" ); writer->writeString( 2, "BLOCK_RECORD" ); writer->writeString( 5, "1" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbSymbolTable" ); writer->writeInt16( 70, 2 ); // end table def writer->writeString( 0, "BLOCK_RECORD" ); writer->writeString( 5, "1F" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "1" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbBlockTableRecord" ); writer->writeString( 2, "*Model_Space" ); if( version > DRW::AC1018 ) { // writer->writeInt16(340, 22); writer->writeInt16( 70, 0 ); writer->writeInt16( 280, 1 ); writer->writeInt16( 281, 0 ); } writer->writeString( 0, "BLOCK_RECORD" ); writer->writeString( 5, "1E" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "1" ); } writer->writeString( 100, "AcDbSymbolTableRecord" ); writer->writeString( 100, "AcDbBlockTableRecord" ); writer->writeString( 2, "*Paper_Space" ); if( version > DRW::AC1018 ) { // writer->writeInt16(340, 22); writer->writeInt16( 70, 0 ); writer->writeInt16( 280, 1 ); writer->writeInt16( 281, 0 ); } } /* allways call writeBlockRecords to iface for prepare unnamed blocks */ iface->writeBlockRecords(); if( version > DRW::AC1009 ) { writer->writeString( 0, "ENDTAB" ); } return true; } bool dxfRW::writeBlocks() { writer->writeString( 0, "BLOCK" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "20" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "1F" ); } writer->writeString( 100, "AcDbEntity" ); } writer->writeString( 8, "0" ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbBlockBegin" ); writer->writeString( 2, "*Model_Space" ); } else writer->writeString( 2, "$MODEL_SPACE" ); writer->writeInt16( 70, 0 ); writer->writeDouble( 10, 0.0 ); writer->writeDouble( 20, 0.0 ); writer->writeDouble( 30, 0.0 ); if( version > DRW::AC1009 ) writer->writeString( 3, "*Model_Space" ); else writer->writeString( 3, "$MODEL_SPACE" ); writer->writeString( 1, "" ); writer->writeString( 0, "ENDBLK" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "21" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "1F" ); } writer->writeString( 100, "AcDbEntity" ); } writer->writeString( 8, "0" ); if( version > DRW::AC1009 ) writer->writeString( 100, "AcDbBlockEnd" ); writer->writeString( 0, "BLOCK" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "1C" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "1B" ); } writer->writeString( 100, "AcDbEntity" ); } writer->writeString( 8, "0" ); if( version > DRW::AC1009 ) { writer->writeString( 100, "AcDbBlockBegin" ); writer->writeString( 2, "*Paper_Space" ); } else writer->writeString( 2, "$PAPER_SPACE" ); writer->writeInt16( 70, 0 ); writer->writeDouble( 10, 0.0 ); writer->writeDouble( 20, 0.0 ); writer->writeDouble( 30, 0.0 ); if( version > DRW::AC1009 ) writer->writeString( 3, "*Paper_Space" ); else writer->writeString( 3, "$PAPER_SPACE" ); writer->writeString( 1, "" ); writer->writeString( 0, "ENDBLK" ); if( version > DRW::AC1009 ) { writer->writeString( 5, "1D" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "1F" ); } writer->writeString( 100, "AcDbEntity" ); } writer->writeString( 8, "0" ); if( version > DRW::AC1009 ) writer->writeString( 100, "AcDbBlockEnd" ); writingBlock = false; iface->writeBlocks(); if( writingBlock ) { writingBlock = false; writer->writeString( 0, "ENDBLK" ); if( version > DRW::AC1009 ) { writer->writeString( 5, toHexStr( currHandle + 2 ) ); // writer->writeString(5, "1D"); if( version > DRW::AC1014 ) { writer->writeString( 330, toHexStr( currHandle ) ); } writer->writeString( 100, "AcDbEntity" ); } writer->writeString( 8, "0" ); if( version > DRW::AC1009 ) writer->writeString( 100, "AcDbBlockEnd" ); } return true; } bool dxfRW::writeObjects() { writer->writeString( 0, "DICTIONARY" ); std::string imgDictH; writer->writeString( 5, "C" ); if( version > DRW::AC1014 ) { writer->writeString( 330, "0" ); } writer->writeString( 100, "AcDbDictionary" ); writer->writeInt16( 281, 1 ); writer->writeString( 3, "ACAD_GROUP" ); writer->writeString( 350, "D" ); if( imageDef.size() != 0 ) { writer->writeString( 3, "ACAD_IMAGE_DICT" ); imgDictH = toHexStr( ++entCount ); writer->writeString( 350, imgDictH ); } writer->writeString( 0, "DICTIONARY" ); writer->writeString( 5, "D" ); writer->writeString( 330, "C" ); writer->writeString( 100, "AcDbDictionary" ); writer->writeInt16( 281, 1 ); // write IMAGEDEF_REACTOR for( unsigned int i = 0; i::iterator it; for( it = id->reactors.begin(); it != id->reactors.end(); ++it ) { writer->writeString( 0, "IMAGEDEF_REACTOR" ); writer->writeString( 5, (*it).first ); writer->writeString( 330, (*it).second ); writer->writeString( 100, "AcDbRasterImageDefReactor" ); writer->writeInt16( 90, 2 ); // version 2=R14 to v2010 writer->writeString( 330, (*it).second ); } } if( imageDef.size() != 0 ) { writer->writeString( 0, "DICTIONARY" ); writer->writeString( 5, imgDictH ); writer->writeString( 330, "C" ); writer->writeString( 100, "AcDbDictionary" ); writer->writeInt16( 281, 1 ); for( unsigned int i = 0; iname.find_last_of( "/\\" ); f2 = imageDef.at( i )->name.find_last_of( '.' ); ++f1; writer->writeString( 3, imageDef.at( i )->name.substr( f1, f2 - f1 ) ); writer->writeString( 350, imageDef.at( i )->handle ); } } for( unsigned int i = 0; iwriteString( 0, "IMAGEDEF" ); writer->writeString( 5, id->handle ); if( version > DRW::AC1014 ) { // writer->writeString(330, "0"); handle to DICTIONARY } writer->writeString( 102, "{ACAD_REACTORS" ); std::map::iterator it; for( it = id->reactors.begin(); it != id->reactors.end(); ++it ) { writer->writeString( 330, (*it).first ); } writer->writeString( 102, "}" ); writer->writeString( 100, "AcDbRasterImageDef" ); writer->writeInt16( 90, 0 ); // version 0=R14 to v2010 writer->writeUtf8String( 1, id->name ); writer->writeDouble( 10, id->u ); writer->writeDouble( 20, id->v ); writer->writeDouble( 11, id->up ); writer->writeDouble( 21, id->vp ); writer->writeInt16( 280, id->loaded ); writer->writeInt16( 281, id->resolution ); } // no more needed imageDef, delete it while( !imageDef.empty() ) { imageDef.pop_back(); } return true; } bool dxfRW::writeExtData( const std::vector& ed ) { for( std::vector::const_iterator it = ed.begin(); it!=ed.end(); ++it ) { switch( (*it)->code ) { case 1000: case 1001: case 1002: case 1003: case 1004: case 1005: { int cc = (*it)->code; if( (*it)->type == DRW_Variant::STRING ) writer->writeUtf8String( cc, *(*it)->content.s ); // writer->writeUtf8String((*it)->code, (*it)->content.s); break; } case 1010: case 1011: case 1012: case 1013: if( (*it)->type == DRW_Variant::COORD ) { writer->writeDouble( (*it)->code, (*it)->content.v->x ); writer->writeDouble( (*it)->code + 10, (*it)->content.v->y ); writer->writeDouble( (*it)->code + 20, (*it)->content.v->z ); } break; case 1040: case 1041: case 1042: if( (*it)->type == DRW_Variant::DOUBLE ) writer->writeDouble( (*it)->code, (*it)->content.d ); break; case 1070: if( (*it)->type == DRW_Variant::INTEGER ) writer->writeInt16( (*it)->code, (*it)->content.i ); break; case 1071: if( (*it)->type == DRW_Variant::INTEGER ) writer->writeInt32( (*it)->code, (*it)->content.i ); break; default: break; } } return true; } /********* Reader Process *********/ bool dxfRW::processDxf() { DBG( "dxfRW::processDxf() start processing dxf\n" ); int code; bool more = true; std::string sectionstr; // section = secUnknown; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( " processDxf\n" ); if( code == 999 ) { header.addComment( reader->getString() ); } else if( code == 0 ) { sectionstr = reader->getString(); DBG( sectionstr ); DBG( " processDxf\n" ); if( sectionstr == "EOF" ) { return true; // found EOF terminate } if( sectionstr == "SECTION" ) { more = reader->readRec( &code, !binary ); DBG( code ); DBG( " processDxf\n" ); if( !more ) return false; // wrong dxf file if( code == 2 ) { sectionstr = reader->getString(); DBG( sectionstr ); DBG( " processDxf\n" ); // found section, process it if( sectionstr == "HEADER" ) { processHeader(); } else if( sectionstr == "CLASSES" ) { // processClasses(); } else if( sectionstr == "TABLES" ) { processTables(); } else if( sectionstr == "BLOCKS" ) { processBlocks(); } else if( sectionstr == "ENTITIES" ) { processEntities( false ); } else if( sectionstr == "OBJECTS" ) { processObjects(); } } } } /* if (!more) * return true;*/ } return true; } /********* Header Section *********/ bool dxfRW::processHeader() { DBG( "dxfRW::processHeader\n" ); int code; std::string sectionstr; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( " processHeader\n" ); if( code == 0 ) { sectionstr = reader->getString(); DBG( sectionstr ); DBG( " processHeader\n\n" ); if( sectionstr == "ENDSEC" ) { iface->addHeader( &header ); return true; // found ENDSEC terminate } } else header.parseCode( code, reader ); } return true; } /********* Tables Section *********/ bool dxfRW::processTables() { DBG( "dxfRW::processTables\n" ); int code; std::string sectionstr; bool more = true; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { sectionstr = reader->getString(); DBG( sectionstr ); DBG( " processHeader\n\n" ); if( sectionstr == "TABLE" ) { more = reader->readRec( &code, !binary ); DBG( code ); DBG( "\n" ); if( !more ) return false; // wrong dxf file if( code == 2 ) { sectionstr = reader->getString(); DBG( sectionstr ); DBG( " processHeader\n\n" ); // found section, process it if( sectionstr == "LTYPE" ) { processLType(); } else if( sectionstr == "LAYER" ) { processLayer(); } else if( sectionstr == "STYLE" ) { processTextStyle(); } else if( sectionstr == "VPORT" ) { processVports(); } else if( sectionstr == "VIEW" ) { // processView(); } else if( sectionstr == "UCS" ) { // processUCS(); } else if( sectionstr == "APPID" ) { processAppId(); } else if( sectionstr == "DIMSTYLE" ) { processDimStyle(); } else if( sectionstr == "BLOCK_RECORD" ) { // processBlockRecord(); } } } else if( sectionstr == "ENDSEC" ) { return true; // found ENDSEC terminate } } } return true; } bool dxfRW::processLType() { DBG( "dxfRW::processLType\n" ); int code; std::string sectionstr; bool reading = false; DRW_LType ltype; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { if( reading ) { ltype.update(); iface->addLType( ltype ); } sectionstr = reader->getString(); DBG( sectionstr ); DBG( "\n" ); if( sectionstr == "LTYPE" ) { reading = true; ltype.reset(); } else if( sectionstr == "ENDTAB" ) { return true; // found ENDTAB terminate } } else if( reading ) ltype.parseCode( code, reader ); } return true; } bool dxfRW::processLayer() { DBG( "dxfRW::processLayer\n" ); int code; std::string sectionstr; bool reading = false; DRW_Layer layer; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { if( reading ) iface->addLayer( layer ); sectionstr = reader->getString(); DBG( sectionstr ); DBG( "\n" ); if( sectionstr == "LAYER" ) { reading = true; layer.reset(); } else if( sectionstr == "ENDTAB" ) { return true; // found ENDTAB terminate } } else if( reading ) layer.parseCode( code, reader ); } return true; } bool dxfRW::processDimStyle() { DBG( "dxfRW::processDimStyle" ); int code; std::string sectionstr; bool reading = false; DRW_Dimstyle dimSty; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { if( reading ) iface->addDimStyle( dimSty ); sectionstr = reader->getString(); DBG( sectionstr ); DBG( "\n" ); if( sectionstr == "DIMSTYLE" ) { reading = true; dimSty.reset(); } else if( sectionstr == "ENDTAB" ) { return true; // found ENDTAB terminate } } else if( reading ) dimSty.parseCode( code, reader ); } return true; } bool dxfRW::processTextStyle() { DBG( "dxfRW::processTextStyle" ); int code; std::string sectionstr; bool reading = false; DRW_Textstyle TxtSty; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { if( reading ) iface->addTextStyle( TxtSty ); sectionstr = reader->getString(); DBG( sectionstr ); DBG( "\n" ); if( sectionstr == "STYLE" ) { reading = true; TxtSty.reset(); } else if( sectionstr == "ENDTAB" ) { return true; // found ENDTAB terminate } } else if( reading ) TxtSty.parseCode( code, reader ); } return true; } bool dxfRW::processVports() { DBG( "dxfRW::processVports" ); int code; std::string sectionstr; bool reading = false; DRW_Vport vp; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { if( reading ) iface->addVport( vp ); sectionstr = reader->getString(); DBG( sectionstr ); DBG( "\n" ); if( sectionstr == "VPORT" ) { reading = true; vp.reset(); } else if( sectionstr == "ENDTAB" ) { return true; // found ENDTAB terminate } } else if( reading ) vp.parseCode( code, reader ); } return true; } bool dxfRW::processAppId() { DBG( "dxfRW::processAppId" ); int code; std::string sectionstr; bool reading = false; DRW_AppId vp; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { if( reading ) iface->addAppId( vp ); sectionstr = reader->getString(); DBG( sectionstr ); DBG( "\n" ); if( sectionstr == "APPID" ) { reading = true; vp.reset(); } else if( sectionstr == "ENDTAB" ) { return true; // found ENDTAB terminate } } else if( reading ) vp.parseCode( code, reader ); } return true; } /********* Block Section *********/ bool dxfRW::processBlocks() { DBG( "dxfRW::processBlocks\n" ); int code; std::string sectionstr; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); if( code == 0 ) { sectionstr = reader->getString(); DBG( sectionstr ); DBG( "\n" ); if( sectionstr == "BLOCK" ) { processBlock(); } else if( sectionstr == "ENDSEC" ) { return true; // found ENDSEC terminate } } } return true; } bool dxfRW::processBlock() { DBG( "dxfRW::processBlock" ); int code; DRW_Block block; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addBlock( block ); if( nextentity == "ENDBLK" ) { iface->endBlock(); return true; // found ENDBLK, terminate } else { processEntities( true ); iface->endBlock(); return true; // found ENDBLK, terminate } } default: block.parseCode( code, reader ); break; } } return true; } /********* Entities Section *********/ bool dxfRW::processEntities( bool isblock ) { DBG( "dxfRW::processEntities\n" ); int code; if( !reader->readRec( &code, !binary ) ) { return false; } bool next = true; if( code == 0 ) { nextentity = reader->getString(); } else if( !isblock ) { return false; // first record in entities is 0 } do { if( nextentity == "ENDSEC" || nextentity == "ENDBLK" ) { return true; // found ENDSEC or ENDBLK terminate } else if( nextentity == "POINT" ) { processPoint(); } else if( nextentity == "LINE" ) { processLine(); } else if( nextentity == "CIRCLE" ) { processCircle(); } else if( nextentity == "ARC" ) { processArc(); } else if( nextentity == "ELLIPSE" ) { processEllipse(); } else if( nextentity == "TRACE" ) { processTrace(); } else if( nextentity == "SOLID" ) { processSolid(); } else if( nextentity == "INSERT" ) { processInsert(); } else if( nextentity == "LWPOLYLINE" ) { processLWPolyline(); } else if( nextentity == "POLYLINE" ) { processPolyline(); } else if( nextentity == "TEXT" ) { processText(); } else if( nextentity == "MTEXT" ) { processMText(); } else if( nextentity == "HATCH" ) { processHatch(); } else if( nextentity == "SPLINE" ) { processSpline(); } else if( nextentity == "3DFACE" ) { process3dface(); } else if( nextentity == "VIEWPORT" ) { processViewport(); } else if( nextentity == "IMAGE" ) { processImage(); } else if( nextentity == "DIMENSION" ) { processDimension(); } else if( nextentity == "LEADER" ) { processLeader(); } else if( nextentity == "RAY" ) { processRay(); } else if( nextentity == "XLINE" ) { processXline(); } else { if( reader->readRec( &code, !binary ) ) { if( code == 0 ) nextentity = reader->getString(); } else return false; // end of file without ENDSEC } } while( next ); return true; } bool dxfRW::processEllipse() { DBG( "dxfRW::processEllipse" ); int code; DRW_Ellipse ellipse; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( applyExt ) ellipse.applyExtrusion(); iface->addEllipse( ellipse ); return true; // found new entity or ENDSEC, terminate } default: ellipse.parseCode( code, reader ); break; } } return true; } bool dxfRW::processTrace() { DBG( "dxfRW::processTrace" ); int code; DRW_Trace trace; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( applyExt ) trace.applyExtrusion(); iface->addTrace( trace ); return true; // found new entity or ENDSEC, terminate } default: trace.parseCode( code, reader ); break; } } return true; } bool dxfRW::processSolid() { DBG( "dxfRW::processSolid" ); int code; DRW_Solid solid; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( applyExt ) solid.applyExtrusion(); iface->addSolid( solid ); return true; // found new entity or ENDSEC, terminate } default: solid.parseCode( code, reader ); break; } } return true; } bool dxfRW::process3dface() { DBG( "dxfRW::process3dface" ); int code; DRW_3Dface face; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->add3dFace( face ); return true; // found new entity or ENDSEC, terminate } default: face.parseCode( code, reader ); break; } } return true; } bool dxfRW::processViewport() { DBG( "dxfRW::processViewport" ); int code; DRW_Viewport vp; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addViewport( vp ); return true; // found new entity or ENDSEC, terminate } default: vp.parseCode( code, reader ); break; } } return true; } bool dxfRW::processPoint() { DBG( "dxfRW::processPoint\n" ); int code; DRW_Point point; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addPoint( point ); return true; // found new entity or ENDSEC, terminate } default: point.parseCode( code, reader ); break; } } return true; } bool dxfRW::processLine() { DBG( "dxfRW::processLine\n" ); int code; DRW_Line line; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addLine( line ); return true; // found new entity or ENDSEC, terminate } default: line.parseCode( code, reader ); break; } } return true; } bool dxfRW::processRay() { DBG( "dxfRW::processRay\n" ); int code; DRW_Ray line; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addRay( line ); return true; // found new entity or ENDSEC, terminate } default: line.parseCode( code, reader ); break; } } return true; } bool dxfRW::processXline() { DBG( "dxfRW::processXline\n" ); int code; DRW_Xline line; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addXline( line ); return true; // found new entity or ENDSEC, terminate } default: line.parseCode( code, reader ); break; } } return true; } bool dxfRW::processCircle() { DBG( "dxfRW::processPoint\n" ); int code; DRW_Circle circle; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( applyExt ) circle.applyExtrusion(); iface->addCircle( circle ); return true; // found new entity or ENDSEC, terminate } default: circle.parseCode( code, reader ); break; } } return true; } bool dxfRW::processArc() { DBG( "dxfRW::processPoint\n" ); int code; DRW_Arc arc; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( applyExt ) arc.applyExtrusion(); iface->addArc( arc ); return true; // found new entity or ENDSEC, terminate } default: arc.parseCode( code, reader ); break; } } return true; } bool dxfRW::processInsert() { DBG( "dxfRW::processInsert" ); int code; DRW_Insert insert; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addInsert( insert ); return true; // found new entity or ENDSEC, terminate } default: insert.parseCode( code, reader ); break; } } return true; } bool dxfRW::processLWPolyline() { DBG( "dxfRW::processLWPolyline" ); int code; DRW_LWPolyline pl; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( applyExt ) pl.applyExtrusion(); iface->addLWPolyline( pl ); return true; // found new entity or ENDSEC, terminate } default: pl.parseCode( code, reader ); break; } } return true; } bool dxfRW::processPolyline() { DBG( "dxfRW::processPolyline" ); int code; DRW_Polyline pl; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( nextentity != "VERTEX" ) { iface->addPolyline( pl ); return true; // found new entity or ENDSEC, terminate } else { processVertex( &pl ); } } default: pl.parseCode( code, reader ); break; } } return true; } bool dxfRW::processVertex( DRW_Polyline* pl ) { DBG( "dxfRW::processVertex" ); int code; DRW_Vertex* v = new DRW_Vertex(); while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { pl->appendVertex( v ); nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); if( nextentity == "SEQEND" ) { return true; // found SEQEND no more vertex, terminate } else if( nextentity == "VERTEX" ) { v = new DRW_Vertex(); // another vertex } } default: v->parseCode( code, reader ); break; } } return true; } bool dxfRW::processText() { DBG( "dxfRW::processText" ); int code; DRW_Text txt; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addText( txt ); return true; // found new entity or ENDSEC, terminate } default: txt.parseCode( code, reader ); break; } } return true; } bool dxfRW::processMText() { DBG( "dxfRW::processMText" ); int code; DRW_MText txt; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); txt.updateAngle(); iface->addMText( txt ); return true; // found new entity or ENDSEC, terminate } default: txt.parseCode( code, reader ); break; } } return true; } bool dxfRW::processHatch() { DBG( "dxfRW::processHatch" ); int code; DRW_Hatch hatch; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addHatch( &hatch ); return true; // found new entity or ENDSEC, terminate } default: hatch.parseCode( code, reader ); break; } } return true; } bool dxfRW::processSpline() { DBG( "dxfRW::processSpline" ); int code; DRW_Spline sp; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addSpline( &sp ); return true; // found new entity or ENDSEC, terminate } default: sp.parseCode( code, reader ); break; } } return true; } bool dxfRW::processImage() { DBG( "dxfRW::processImage" ); int code; DRW_Image img; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addImage( &img ); return true; // found new entity or ENDSEC, terminate } default: img.parseCode( code, reader ); break; } } return true; } bool dxfRW::processDimension() { DBG( "dxfRW::processDimension" ); int code; DRW_Dimension dim; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); int type = dim.type & 0x0F; switch( type ) { case 0: { DRW_DimLinear d( dim ); iface->addDimLinear( &d ); break; } case 1: { DRW_DimAligned d( dim ); iface->addDimAlign( &d ); break; } case 2: { DRW_DimAngular d( dim ); iface->addDimAngular( &d ); break; } case 3: { DRW_DimDiametric d( dim ); iface->addDimDiametric( &d ); break; } case 4: { DRW_DimRadial d( dim ); iface->addDimRadial( &d ); break; } case 5: { DRW_DimAngular3p d( dim ); iface->addDimAngular3P( &d ); break; } case 6: { DRW_DimOrdinate d( dim ); iface->addDimOrdinate( &d ); break; } } return true; // found new entity or ENDSEC, terminate } default: dim.parseCode( code, reader ); break; } } return true; } bool dxfRW::processLeader() { DBG( "dxfRW::processLeader" ); int code; DRW_Leader leader; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->addLeader( &leader ); return true; // found new entity or ENDSEC, terminate } default: leader.parseCode( code, reader ); break; } } return true; } /********* Objects Section *********/ bool dxfRW::processObjects() { DBG( "dxfRW::processObjects\n" ); int code; if( !reader->readRec( &code, !binary ) ) { return false; } bool next = true; if( code == 0 ) { nextentity = reader->getString(); } else { return false; // first record in objects is 0 } do { if( nextentity == "ENDSEC" ) { return true; // found ENDSEC terminate } else if( nextentity == "IMAGEDEF" ) { processImageDef(); } else { if( reader->readRec( &code, !binary ) ) { if( code == 0 ) nextentity = reader->getString(); } else return false; // end of file without ENDSEC } } while( next ); return true; } bool dxfRW::processImageDef() { DBG( "dxfRW::processImageDef" ); int code; DRW_ImageDef img; while( reader->readRec( &code, !binary ) ) { DBG( code ); DBG( "\n" ); switch( code ) { case 0: { nextentity = reader->getString(); DBG( nextentity ); DBG( "\n" ); iface->linkImage( &img ); return true; // found new entity or ENDSEC, terminate } default: img.parseCode( code, reader ); break; } } return true; } /** utility function * convert a int to string in hex **/ std::string dxfRW::toHexStr( int n ) { #if defined(__APPLE__) char buffer[9] = { '\0' }; snprintf( buffer, sizeof(buffer), "%X", n ); return std::string( buffer ); #else std::ostringstream Convert; Convert << std::uppercase << std::hex << n; return Convert.str(); #endif }