Commit 55e9b4d1 authored by jean-pierre charras's avatar jean-pierre charras

Add a DXF file import to create board outlines

parent e8ad48ad
...@@ -360,6 +360,7 @@ add_subdirectory( cvpcb ) ...@@ -360,6 +360,7 @@ add_subdirectory( cvpcb )
add_subdirectory( eeschema ) add_subdirectory( eeschema )
add_subdirectory( gerbview ) add_subdirectory( gerbview )
add_subdirectory( kicad ) add_subdirectory( kicad )
add_subdirectory( lib_dxf )
add_subdirectory( pcbnew ) add_subdirectory( pcbnew )
add_subdirectory( polygon ) add_subdirectory( polygon )
add_subdirectory( pagelayout_editor ) add_subdirectory( pagelayout_editor )
......
include_directories(intern)
set(LIBDXF_SRCS
libdxfrw.cpp
intern/dxfwriter.cpp
intern/drw_textcodec.cpp
intern/dxfreader.cpp
drw_objects.cpp
drw_entities.cpp
)
add_library(lib_dxf STATIC ${LIBDXF_SRCS})
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#ifndef DRW_BASE_H
#define DRW_BASE_H
#define DRW_VERSION "0.5.10"
#include <string>
#include <cmath>
using std::string;
#define UTF8STRING std::string
#define DRW_UNUSED( x ) (void) x
#if defined(WIN64) || defined(_WIN64) || defined(__WIN64__)
# define DRW_WIN
#elif defined(WIN32) || defined(_WIN32) || defined(__WIN32__) || defined(__NT__)
# define DRW_WIN
#elif defined(__MWERKS__) && defined(__INTEL__)
# define DRW_WIN
#else
# define DRW_POSIX
#endif
#ifndef M_PI
#define M_PI 3.141592653589793238462643
#endif
#ifndef M_PI_2
#define M_PI_2 1.57079632679489661923
#endif
#define M_PIx2 6.283185307179586 // 2*PI
#define ARAD 57.29577951308232
namespace DRW {
// ! Version numbers for the DXF Format.
enum Version {
UNKNOWNV, /*!< UNKNOWN VERSION. */
AC1006, /*!< R10. */
AC1009, /*!< R11 & R12. */
AC1012, /*!< R13. */
AC1014, /*!< R14. */
AC1015, /*!< ACAD 2000. */
AC1018, /*!< ACAD 2004. */
AC1021, /*!< ACAD 2007. */
AC1024 /*!< ACAD 2010. */
};
enum error {
BAD_NONE, /*!< No error. */
BAD_UNKNOWN, /*!< UNKNOWN. */
BAD_OPEN, /*!< error opening file. */
BAD_VERSION, /*!< unsupported version. */
BAD_READ_FILE_HEADER, /*!< error in file header read process. */
BAD_READ_HEADER, /*!< error in header vars read process. */
BAD_READ_OFFSETS, /*!< error in object map read process. */
BAD_READ_CLASSES, /*!< error in classes read process. */
BAD_READ_TABLES, /*!< error in tables read process. */
BAD_READ_ENTITIES /*!< error in entities read process. */
};
}
// ! Class to handle 3D coordinate point
/*!
* Class to handle 3D coordinate point
* @author Rallaz
*/
class DRW_Coord
{
public:
DRW_Coord() { x = 0; y = 0; z = 0; }
DRW_Coord( double ix, double iy, double iz )
{
x = ix; y = iy; z = iz;
}
DRW_Coord operator =( const DRW_Coord& data )
{
x = data.x; y = data.y; z = data.z;
return *this;
}
/*!< convert to unitary vector */
void unitize()
{
double dist;
dist = sqrt( x * x + y * y + z * z );
if( dist > 0.0 )
{
x = x / dist;
y = y / dist;
z = z / dist;
}
}
public:
double x;
double y;
double z;
};
// ! Class to handle vertex
/*!
* Class to handle vertex for lwpolyline entity
* @author Rallaz
*/
class DRW_Vertex2D
{
public:
DRW_Vertex2D()
{
// eType = DRW::LWPOLYLINE;
stawidth = endwidth = bulge = 0;
}
DRW_Vertex2D( double sx, double sy, double b )
{
stawidth = endwidth = 0;
x = sx;
y = sy;
bulge = b;
}
public:
double x; /*!< x coordinate, code 10 */
double y; /*!< y coordinate, code 20 */
double stawidth; /*!< Start width, code 40 */
double endwidth; /*!< End width, code 41 */
double bulge; /*!< bulge, code 42 */
};
// ! Class to handle header vars
/*!
* Class to handle header vars
* @author Rallaz
*/
class DRW_Variant
{
public:
enum TYPE {
STRING,
INTEGER,
DOUBLE,
COORD,
INVALID
};
DRW_Variant()
{
type = INVALID;
}
~DRW_Variant()
{
if( type == COORD )
delete content.v;
}
enum TYPE type;
void addString( UTF8STRING s ) { setType( STRING ); data = s; content.s = &data; }
void addInt( int i ) { setType( INTEGER ); content.i = i; }
void addDouble( double d ) { setType( DOUBLE ); content.d = d; }
void addCoord( DRW_Coord* v ) { setType( COORD ); content.v = v; }
void setType( enum TYPE t )
{
if( type == COORD )
delete content.v;
type = t;
}
void setCoordX( double d ) { if( type == COORD ) content.v->x = d; }
void setCoordY( double d ) { if( type == COORD ) content.v->y = d; }
void setCoordZ( double d ) { if( type == COORD ) content.v->z = d; }
private:
typedef union
{
UTF8STRING* s;
int i;
double d;
DRW_Coord* v;
} DRW_VarContent;
public:
DRW_VarContent content;
public:
int code;
// string version;
// string codepage;
private:
// DRW_VarContent content;
string data;
};
// ! Class to convert between line width and integer
/*!
* Class to convert between line width and integer
* verifing valid values, if value is not valid
* returns widthDefault.
* @author Rallaz
*/
class DRW_LW_Conv
{
public:
enum lineWidth {
width00 = 0, /*!< 0.00mm (dxf 0)*/
width01 = 1, /*!< 0.05mm (dxf 5)*/
width02 = 2, /*!< 0.09mm (dxf 9)*/
width03 = 3, /*!< 0.13mm (dxf 13)*/
width04 = 4, /*!< 0.15mm (dxf 15)*/
width05 = 5, /*!< 0.18mm (dxf 18)*/
width06 = 6, /*!< 0.20mm (dxf 20)*/
width07 = 7, /*!< 0.25mm (dxf 25)*/
width08 = 8, /*!< 0.30mm (dxf 30)*/
width09 = 9, /*!< 0.35mm (dxf 35)*/
width10 = 10, /*!< 0.40mm (dxf 40)*/
width11 = 11, /*!< 0.50mm (dxf 50)*/
width12 = 12, /*!< 0.53mm (dxf 53)*/
width13 = 13, /*!< 0.60mm (dxf 60)*/
width14 = 14, /*!< 0.70mm (dxf 70)*/
width15 = 15, /*!< 0.80mm (dxf 80)*/
width16 = 16, /*!< 0.90mm (dxf 90)*/
width17 = 17, /*!< 1.00mm (dxf 100)*/
width18 = 18, /*!< 1.06mm (dxf 106)*/
width19 = 19, /*!< 1.20mm (dxf 120)*/
width20 = 20, /*!< 1.40mm (dxf 140)*/
width21 = 21, /*!< 1.58mm (dxf 158)*/
width22 = 22, /*!< 2.00mm (dxf 200)*/
width23 = 23, /*!< 2.11mm (dxf 211)*/
widthByLayer = 29, /*!< by layer (dxf -1) */
widthByBlock = 30, /*!< by block (dxf -2) */
widthDefault = 31 /*!< by default (dxf -3) */
};
static int lineWidth2dxfInt( enum lineWidth lw )
{
switch( lw )
{
case widthByLayer:
return -1;
case widthByBlock:
return -2;
case widthDefault:
return -3;
case width00:
return 0;
case width01:
return 5;
case width02:
return 9;
case width03:
return 13;
case width04:
return 15;
case width05:
return 18;
case width06:
return 20;
case width07:
return 25;
case width08:
return 30;
case width09:
return 35;
case width10:
return 40;
case width11:
return 50;
case width12:
return 53;
case width13:
return 60;
case width14:
return 70;
case width15:
return 80;
case width16:
return 90;
case width17:
return 100;
case width18:
return 106;
case width19:
return 120;
case width20:
return 140;
case width21:
return 158;
case width22:
return 200;
case width23:
return 211;
default:
return -3;
}
return static_cast<int> (lw);
}
static int lineWidth2dwgInt( enum lineWidth lw )
{
return static_cast<int> (lw);
}
static enum lineWidth dxfInt2lineWidth( int i )
{
if( i<0 )
{
if( i==-1 )
return widthByLayer;
else if( i==-2 )
return widthByBlock;
else if( i==-3 )
return widthDefault;
}
else if( i<3 )
{
return width00;
}
else if( i<7 )
{
return width01;
}
else if( i<11 )
{
return width02;
}
else if( i<14 )
{
return width03;
}
else if( i<16 )
{
return width04;
}
else if( i<19 )
{
return width05;
}
else if( i<22 )
{
return width06;
}
else if( i<27 )
{
return width07;
}
else if( i<32 )
{
return width08;
}
else if( i<37 )
{
return width09;
}
else if( i<45 )
{
return width10;
}
else if( i<52 )
{
return width11;
}
else if( i<57 )
{
return width12;
}
else if( i<65 )
{
return width13;
}
else if( i<75 )
{
return width14;
}
else if( i<85 )
{
return width15;
}
else if( i<95 )
{
return width16;
}
else if( i<103 )
{
return width17;
}
else if( i<112 )
{
return width18;
}
else if( i<130 )
{
return width19;
}
else if( i<149 )
{
return width20;
}
else if( i<180 )
{
return width21;
}
else if( i<205 )
{
return width22;
}
else
{
return width23;
}
// default by default
return widthDefault;
}
static enum lineWidth dwgInt2lineWidth( int i )
{
if( (i>-1 && i<24) || (i>28 && i<32) )
{
return static_cast<lineWidth> (i);
}
// default by default
return widthDefault;
}
};
#endif
// EOF
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#include <cstdlib>
#include "drw_entities.h"
#include "intern/dxfreader.h"
// ! Calculate arbitary axis
/*!
* Calculate arbitary axis for apply extrusions
* @author Rallaz
*/
void DRW_Entity::calculateAxis( DRW_Coord extPoint )
{
if( fabs( extPoint.x ) < 0.015625 && fabs( extPoint.y ) < 0.015625 )
{
extAxisX.x = extPoint.z;
extAxisX.y = 0;
extAxisX.z = -extPoint.x;
}
else
{
extAxisX.x = -extPoint.y;
extAxisX.y = extPoint.x;
extAxisX.z = 0;
}
extAxisX.unitize();
extAxisY.x = (extPoint.y * extAxisX.z) - (extAxisX.y * extPoint.z);
extAxisY.y = (extPoint.z * extAxisX.x) - (extAxisX.z * extPoint.x);
extAxisY.z = (extPoint.x * extAxisX.y) - (extAxisX.x * extPoint.y);
extAxisY.unitize();
}
// ! Extrude a point using arbitary axis
/*!
* apply extrusion in a point using arbitary axis (previous calculated)
* @author Rallaz
*/
void DRW_Entity::extrudePoint( DRW_Coord extPoint, DRW_Coord* point )
{
double px, py, pz;
px = (extAxisX.x * point->x) + (extAxisY.x * point->y) + (extPoint.x * point->z);
py = (extAxisX.y * point->x) + (extAxisY.y * point->y) + (extPoint.y * point->z);
pz = (extAxisX.z * point->x) + (extAxisY.z * point->y) + (extPoint.z * point->z);
point->x = px;
point->y = py;
point->z = pz;
}
void DRW_Entity::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 5:
handle = reader->getHandleString();
break;
case 330:
handleBlock = reader->getHandleString();
break;
case 8:
layer = reader->getUtf8String();
break;
case 6:
lineType = reader->getUtf8String();
break;
case 62:
color = reader->getInt32();
break;
case 370:
lWeight = DRW_LW_Conv::dxfInt2lineWidth( reader->getInt32() );
break;
case 48:
ltypeScale = reader->getDouble();
break;
case 60:
visible = reader->getBool();
break;
case 420:
color24 = reader->getInt32();
break;
case 430:
colorName = reader->getString();
break;
case 67:
space = reader->getInt32();
break;
default:
break;
}
}
void DRW_Point::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 10:
basePoint.x = reader->getDouble();
break;
case 20:
basePoint.y = reader->getDouble();
break;
case 30:
basePoint.z = reader->getDouble();
break;
case 39:
thickness = reader->getDouble();
break;
case 210:
haveExtrusion = true;
extPoint.x = reader->getDouble();
break;
case 220:
extPoint.y = reader->getDouble();
break;
case 230:
extPoint.z = reader->getDouble();
break;
default:
DRW_Entity::parseCode( code, reader );
break;
}
}
void DRW_Line::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 11:
secPoint.x = reader->getDouble();
break;
case 21:
secPoint.y = reader->getDouble();
break;
case 31:
secPoint.z = reader->getDouble();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
void DRW_Circle::applyExtrusion()
{
if( haveExtrusion )
{
calculateAxis( extPoint );
extrudePoint( extPoint, &basePoint );
}
}
void DRW_Circle::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 40:
radious = reader->getDouble();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
void DRW_Arc::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 50:
staangle = reader->getDouble() / ARAD;
break;
case 51:
endangle = reader->getDouble() / ARAD;
break;
default:
DRW_Circle::parseCode( code, reader );
break;
}
}
void DRW_Ellipse::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 40:
ratio = reader->getDouble();
break;
case 41:
staparam = reader->getDouble();
break;
case 42:
endparam = reader->getDouble();
break;
default:
DRW_Line::parseCode( code, reader );
break;
}
}
void DRW_Ellipse::applyExtrusion()
{
if( haveExtrusion )
{
calculateAxis( extPoint );
extrudePoint( extPoint, &secPoint );
double intialparam = staparam;
if( extPoint.z < 0. )
{
staparam = M_PIx2 - endparam;
endparam = M_PIx2 - intialparam;
}
}
}
// if ratio > 1 minor axis are greather than major axis, correct it
void DRW_Ellipse::correctAxis()
{
bool complete = false;
if( staparam == endparam )
{
staparam = 0.0;
endparam = M_PIx2; // 2*M_PI;
complete = true;
}
if( ratio > 1 )
{
if( fabs( endparam - staparam - M_PIx2 ) < 1.0e-10 )
complete = true;
double incX = secPoint.x;
secPoint.x = -(secPoint.y * ratio);
secPoint.y = incX * ratio;
ratio = 1 / ratio;
if( !complete )
{
if( staparam < M_PI_2 )
staparam += M_PI * 2;
if( endparam < M_PI_2 )
endparam += M_PI * 2;
endparam -= M_PI_2;
staparam -= M_PI_2;
}
}
}
// parts are the number of vertex to split polyline, default 128
void DRW_Ellipse::toPolyline( DRW_Polyline* pol, int parts )
{
double radMajor, radMinor, cosRot, sinRot, incAngle, curAngle;
double cosCurr, sinCurr;
radMajor = sqrt( secPoint.x * secPoint.x + secPoint.y * secPoint.y );
radMinor = radMajor * ratio;
// calculate sin & cos of included angle
incAngle = atan2( secPoint.y, secPoint.x );
cosRot = cos( incAngle );
sinRot = sin( incAngle );
incAngle = M_PIx2 / parts;
curAngle = staparam;
int i = curAngle / incAngle;
do {
if( curAngle > endparam )
{
curAngle = endparam;
i = parts + 2;
}
cosCurr = cos( curAngle );
sinCurr = sin( curAngle );
double x = basePoint.x + (cosCurr * cosRot * radMajor) - (sinCurr * sinRot * radMinor);
double y = basePoint.y + (cosCurr * sinRot * radMajor) + (sinCurr * cosRot * radMinor);
pol->addVertex( DRW_Vertex( x, y, 0.0, 0.0 ) );
curAngle = (++i) * incAngle;
} while( i<parts );
if( fabs( endparam - staparam - M_PIx2 ) < 1.0e-10 )
{
pol->flags = 1;
}
pol->layer = this->layer;
pol->lineType = this->lineType;
pol->color = this->color;
pol->lWeight = this->lWeight;
pol->extPoint = this->extPoint;
}
void DRW_Trace::applyExtrusion()
{
if( haveExtrusion )
{
calculateAxis( extPoint );
extrudePoint( extPoint, &basePoint );
extrudePoint( extPoint, &secPoint );
extrudePoint( extPoint, &thirdPoint );
extrudePoint( extPoint, &fourPoint );
}
}
void DRW_Trace::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 12:
thirdPoint.x = reader->getDouble();
break;
case 22:
thirdPoint.y = reader->getDouble();
break;
case 32:
thirdPoint.z = reader->getDouble();
break;
case 13:
fourPoint.x = reader->getDouble();
break;
case 23:
fourPoint.y = reader->getDouble();
break;
case 33:
fourPoint.z = reader->getDouble();
break;
default:
DRW_Line::parseCode( code, reader );
break;
}
}
void DRW_Solid::parseCode( int code, dxfReader* reader )
{
DRW_Trace::parseCode( code, reader );
}
void DRW_3Dface::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 70:
invisibleflag = reader->getInt32();
break;
default:
DRW_Trace::parseCode( code, reader );
break;
}
}
void DRW_Block::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 2:
name = reader->getUtf8String();
break;
case 70:
flags = reader->getInt32();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
void DRW_Insert::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 2:
name = reader->getUtf8String();
break;
case 41:
xscale = reader->getDouble();
break;
case 42:
yscale = reader->getDouble();
break;
case 43:
zscale = reader->getDouble();
break;
case 50:
angle = reader->getDouble();
break;
case 70:
colcount = reader->getInt32();
break;
case 71:
rowcount = reader->getInt32();
break;
case 44:
colspace = reader->getDouble();
break;
case 45:
rowspace = reader->getDouble();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
void DRW_LWPolyline::applyExtrusion()
{
if( haveExtrusion )
{
calculateAxis( extPoint );
for( unsigned int i = 0; i<vertlist.size(); i++ )
{
DRW_Vertex2D* vert = vertlist.at( i );
DRW_Coord v( vert->x, vert->y, elevation );
extrudePoint( extPoint, &v );
vert->x = v.x;
vert->y = v.y;
}
}
}
void DRW_LWPolyline::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 10:
{
vertex = new DRW_Vertex2D();
vertlist.push_back( vertex );
vertex->x = reader->getDouble();
break;
}
case 20:
if( vertex != NULL )
vertex->y = reader->getDouble();
break;
case 40:
if( vertex != NULL )
vertex->stawidth = reader->getDouble();
break;
case 41:
if( vertex != NULL )
vertex->endwidth = reader->getDouble();
break;
case 42:
if( vertex != NULL )
vertex->bulge = reader->getDouble();
break;
case 38:
elevation = reader->getDouble();
break;
case 39:
thickness = reader->getDouble();
break;
case 43:
width = reader->getDouble();
break;
case 70:
flags = reader->getInt32();
break;
case 90:
vertexnum = reader->getInt32();
vertlist.reserve( vertexnum );
break;
case 210:
haveExtrusion = true;
extPoint.x = reader->getDouble();
break;
case 220:
extPoint.y = reader->getDouble();
break;
case 230:
extPoint.z = reader->getDouble();
break;
default:
DRW_Entity::parseCode( code, reader );
break;
}
}
void DRW_Text::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 40:
height = reader->getDouble();
break;
case 41:
widthscale = reader->getDouble();
break;
case 50:
angle = reader->getDouble();
break;
case 51:
oblique = reader->getDouble();
break;
case 71:
textgen = reader->getInt32();
break;
case 72:
alignH = (HAlign) reader->getInt32();
break;
case 73:
alignV = (VAlign) reader->getInt32();
break;
case 1:
text = reader->getUtf8String();
break;
case 7:
style = reader->getUtf8String();
break;
default:
DRW_Line::parseCode( code, reader );
break;
}
}
void DRW_MText::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 1:
text += reader->getString();
text = reader->toUtf8String( text );
break;
case 11:
haveXAxis = true;
DRW_Text::parseCode( code, reader );
break;
case 3:
text += reader->getString();
break;
case 44:
interlin = reader->getDouble();
break;
default:
DRW_Text::parseCode( code, reader );
break;
}
}
void DRW_MText::updateAngle()
{
if( haveXAxis )
{
angle = atan2( secPoint.y, secPoint.x ) * 180 / M_PI;
}
}
void DRW_Polyline::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 70:
flags = reader->getInt32();
break;
case 40:
defstawidth = reader->getDouble();
break;
case 41:
defendwidth = reader->getDouble();
break;
case 71:
vertexcount = reader->getInt32();
break;
case 72:
facecount = reader->getInt32();
break;
case 73:
smoothM = reader->getInt32();
break;
case 74:
smoothN = reader->getInt32();
break;
case 75:
curvetype = reader->getInt32();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
void DRW_Vertex::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 70:
flags = reader->getInt32();
break;
case 40:
stawidth = reader->getDouble();
break;
case 41:
endwidth = reader->getDouble();
break;
case 42:
bulge = reader->getDouble();
break;
case 50:
tgdir = reader->getDouble();
break;
case 71:
vindex1 = reader->getInt32();
break;
case 72:
vindex2 = reader->getInt32();
break;
case 73:
vindex3 = reader->getInt32();
break;
case 74:
vindex4 = reader->getInt32();
break;
case 91:
identifier = reader->getInt32();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
void DRW_Hatch::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 2:
name = reader->getUtf8String();
break;
case 70:
solid = reader->getInt32();
break;
case 71:
associative = reader->getInt32();
break;
case 72: /*edge type*/
if( ispol ) // if is polyline is a as_bulge flag
{
break;
}
else if( reader->getInt32() == 1 ) // line
{
addLine();
}
else if( reader->getInt32() == 2 ) // arc
{
addArc();
}
else if( reader->getInt32() == 3 ) // elliptic arc
{
addEllipse();
}
else if( reader->getInt32() == 4 ) // spline
{
addSpline();
}
break;
case 10:
if( pt )
pt->basePoint.x = reader->getDouble();
else if( pline )
{
plvert = pline->addVertex();
plvert->x = reader->getDouble();
}
break;
case 20:
if( pt )
pt->basePoint.y = reader->getDouble();
else if( plvert )
plvert->y = reader->getDouble();
break;
case 11:
if( line )
line->secPoint.x = reader->getDouble();
else if( ellipse )
ellipse->secPoint.x = reader->getDouble();
break;
case 21:
if( line )
line->secPoint.y = reader->getDouble();
else if( ellipse )
ellipse->secPoint.y = reader->getDouble();
break;
case 40:
if( arc )
arc->radious = reader->getDouble();
else if( ellipse )
ellipse->ratio = reader->getDouble();
break;
case 41:
scale = reader->getDouble();
break;
case 42:
if( plvert )
plvert->bulge = reader->getDouble();
break;
case 50:
if( arc )
arc->staangle = reader->getDouble() / ARAD;
else if( ellipse )
ellipse->staparam = reader->getDouble() / ARAD;
break;
case 51:
if( arc )
arc->endangle = reader->getDouble() / ARAD;
else if( ellipse )
ellipse->endparam = reader->getDouble() / ARAD;
break;
case 52:
angle = reader->getDouble();
break;
case 73:
if( arc )
arc->isccw = reader->getInt32();
else if( pline )
pline->flags = reader->getInt32();
break;
case 75:
hstyle = reader->getInt32();
break;
case 76:
hpattern = reader->getInt32();
break;
case 77:
doubleflag = reader->getInt32();
break;
case 78:
deflines = reader->getInt32();
break;
case 91:
loopsnum = reader->getInt32();
looplist.reserve( loopsnum );
break;
case 92:
loop = new DRW_HatchLoop( reader->getInt32() );
looplist.push_back( loop );
if( reader->getInt32() & 2 )
{
ispol = true;
clearEntities();
pline = new DRW_LWPolyline;
loop->objlist.push_back( pline );
}
else
ispol = false;
break;
case 93:
if( pline )
pline->vertexnum = reader->getInt32();
else
loop->numedges = reader->getInt32(); // aqui reserve
break;
case 98: // seed points ??
clearEntities();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
void DRW_Spline::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 210:
ex = reader->getDouble();
break;
case 220:
ey = reader->getDouble();
break;
case 230:
ez = reader->getDouble();
break;
case 12:
tgsx = reader->getDouble();
break;
case 22:
tgsy = reader->getDouble();
break;
case 32:
tgsz = reader->getDouble();
break;
case 13:
tgex = reader->getDouble();
break;
case 23:
tgey = reader->getDouble();
break;
case 33:
tgez = reader->getDouble();
break;
case 70:
flags = reader->getInt32();
break;
case 71:
degree = reader->getInt32();
break;
case 72:
nknots = reader->getInt32();
break;
case 73:
ncontrol = reader->getInt32();
break;
case 74:
nfit = reader->getInt32();
break;
case 42:
tolknot = reader->getDouble();
break;
case 43:
tolcontrol = reader->getDouble();
break;
case 44:
tolfit = reader->getDouble();
break;
case 10:
{
controlpoint = new DRW_Coord();
controllist.push_back( controlpoint );
controlpoint->x = reader->getDouble();
break;
}
case 20:
if( controlpoint != NULL )
controlpoint->y = reader->getDouble();
break;
case 30:
if( controlpoint != NULL )
controlpoint->z = reader->getDouble();
break;
case 11:
{
fitpoint = new DRW_Coord();
fitlist.push_back( fitpoint );
fitpoint->x = reader->getDouble();
break;
}
case 21:
if( fitpoint != NULL )
fitpoint->y = reader->getDouble();
break;
case 31:
if( fitpoint != NULL )
fitpoint->z = reader->getDouble();
break;
case 40:
knotslist.push_back( reader->getDouble() );
break;
// case 41:
// break;
default:
DRW_Entity::parseCode( code, reader );
break;
}
}
void DRW_Image::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 12:
vx = reader->getDouble();
break;
case 22:
vy = reader->getDouble();
break;
case 32:
vz = reader->getDouble();
break;
case 13:
sizeu = reader->getDouble();
break;
case 23:
sizev = reader->getDouble();
break;
case 340:
ref = reader->getString();
break;
case 280:
clip = reader->getInt32();
break;
case 281:
brightness = reader->getInt32();
break;
case 282:
contrast = reader->getInt32();
break;
case 283:
fade = reader->getInt32();
break;
default:
DRW_Line::parseCode( code, reader );
break;
}
}
void DRW_Dimension::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 1:
text = reader->getUtf8String();
break;
case 2:
name = reader->getString();
break;
case 3:
style = reader->getUtf8String();
break;
case 70:
type = reader->getInt32();
break;
case 71:
align = reader->getInt32();
break;
case 72:
linesty = reader->getInt32();
break;
case 10:
defPoint.x = reader->getDouble();
break;
case 20:
defPoint.y = reader->getDouble();
break;
case 30:
defPoint.z = reader->getDouble();
break;
case 11:
textPoint.x = reader->getDouble();
break;
case 21:
textPoint.y = reader->getDouble();
break;
case 31:
textPoint.z = reader->getDouble();
break;
case 12:
clonePoint.x = reader->getDouble();
break;
case 22:
clonePoint.y = reader->getDouble();
break;
case 32:
clonePoint.z = reader->getDouble();
break;
case 13:
def1.x = reader->getDouble();
break;
case 23:
def1.y = reader->getDouble();
break;
case 33:
def1.z = reader->getDouble();
break;
case 14:
def2.x = reader->getDouble();
break;
case 24:
def2.y = reader->getDouble();
break;
case 34:
def2.z = reader->getDouble();
break;
case 15:
circlePoint.x = reader->getDouble();
break;
case 25:
circlePoint.y = reader->getDouble();
break;
case 35:
circlePoint.z = reader->getDouble();
break;
case 16:
arcPoint.x = reader->getDouble();
break;
case 26:
arcPoint.y = reader->getDouble();
break;
case 36:
arcPoint.z = reader->getDouble();
break;
case 41:
linefactor = reader->getDouble();
break;
case 53:
rot = reader->getDouble();
break;
case 50:
angle = reader->getDouble();
break;
case 52:
oblique = reader->getDouble();
break;
case 40:
length = reader->getDouble();
break;
/* case 51:
* hdir = reader->getDouble();
* break;*/
default:
DRW_Entity::parseCode( code, reader );
break;
}
}
void DRW_Leader::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 3:
style = reader->getUtf8String();
break;
case 71:
arrow = reader->getInt32();
break;
case 72:
leadertype = reader->getInt32();
break;
case 73:
flag = reader->getInt32();
break;
case 74:
hookline = reader->getInt32();
break;
case 75:
hookflag = reader->getInt32();
break;
case 76:
vertnum = reader->getInt32();
break;
case 77:
coloruse = reader->getInt32();
break;
case 40:
textheight = reader->getDouble();
break;
case 41:
textwidth = reader->getDouble();
break;
case 10:
{
vertexpoint = new DRW_Coord();
vertexlist.push_back( vertexpoint );
vertexpoint->x = reader->getDouble();
break;
}
case 20:
if( vertexpoint != NULL )
vertexpoint->y = reader->getDouble();
break;
case 30:
if( vertexpoint != NULL )
vertexpoint->z = reader->getDouble();
break;
case 340:
handle = reader->getString();
break;
case 210:
extrusionPoint.x = reader->getDouble();
break;
case 220:
extrusionPoint.y = reader->getDouble();
break;
case 230:
extrusionPoint.z = reader->getDouble();
break;
case 211:
horizdir.x = reader->getDouble();
break;
case 221:
horizdir.y = reader->getDouble();
break;
case 231:
horizdir.z = reader->getDouble();
break;
case 212:
offsetblock.x = reader->getDouble();
break;
case 222:
offsetblock.y = reader->getDouble();
break;
case 232:
offsetblock.z = reader->getDouble();
break;
case 213:
offsettext.x = reader->getDouble();
break;
case 223:
offsettext.y = reader->getDouble();
break;
case 233:
offsettext.z = reader->getDouble();
break;
default:
DRW_Entity::parseCode( code, reader );
break;
}
}
void DRW_Viewport::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 40:
pswidth = reader->getDouble();
break;
case 41:
psheight = reader->getDouble();
break;
case 68:
vpstatus = reader->getInt32();
break;
case 69:
vpID = reader->getInt32();
break;
case 12:
{
centerPX = reader->getDouble();
break;
}
case 22:
centerPY = reader->getDouble();
break;
default:
DRW_Point::parseCode( code, reader );
break;
}
}
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#ifndef DRW_ENTITIES_H
#define DRW_ENTITIES_H
#include <string>
#include <vector>
#include "drw_base.h"
class dxfReader;
class DRW_Polyline;
using std::string;
namespace DRW {
// ! Entity's type.
enum ETYPE {
POINT,
LINE,
CIRCLE,
ARC,
ELLIPSE,
TRACE,
SOLID,
BLOCK,
INSERT,
LWPOLYLINE,
POLYLINE,
VERTEX,
SPLINE,
HATCH,
TEXT,
MTEXT,
E3DFACE,
IMAGE,
LEADER,
DIMENSION,
DIMALIGNED,
DIMLINEAR,
DIMRADIAL,
DIMDIAMETRIC,
DIMANGULAR,
DIMANGULAR3P,
DIMORDINATE,
// OVERLAYBOX,
// CONSTRUCTIONLINE,
RAY,
XLINE,
VIEWPORT,
UNKNOWN
};
}
// ! Base class for entities
/*!
* Base class for entities
* @author Rallaz
*/
class DRW_Entity
{
public:
// initializes default values
DRW_Entity()
{
eType = DRW::UNKNOWN;
lineType = "BYLAYER";
color = 256; // default BYLAYER (256)
ltypeScale = 1.0;
visible = true;
layer = "0";
lWeight = DRW_LW_Conv::widthByLayer; // default BYLAYER (dxf -1, dwg 29)
handleBlock = space = 0; // default ModelSpace (0) & handleBlock = no handle (0)
haveExtrusion = false;
color24 = -1; // default -1 not set
}
virtual ~DRW_Entity() {}
DRW_Entity( const DRW_Entity& d )
{
eType = d.eType;
handle = d.handle;
handleBlock = d.handleBlock;
layer = d.layer;
lineType = d.lineType;
color = d.color;
color24 = d.color24;
colorName = d.colorName;
ltypeScale = d.ltypeScale;
visible = d.visible;
lWeight = d.lWeight;
space = d.space;
haveExtrusion = d.haveExtrusion;
}
virtual void applyExtrusion() = 0;
protected:
void parseCode( int code, dxfReader* reader );
void calculateAxis( DRW_Coord extPoint );
void extrudePoint( DRW_Coord extPoint, DRW_Coord* point );
public:
enum DRW::ETYPE eType; /*!< enum: entity type, code 0 */
int handle; /*!< entity identifier, code 5 */
int handleBlock; /*!< Soft-pointer ID/handle to owner BLOCK_RECORD object, code 330 */
UTF8STRING layer; /*!< layer name, code 8 */
UTF8STRING lineType; /*!< line type, code 6 */
int color; /*!< entity color, code 62 */
enum DRW_LW_Conv::lineWidth lWeight; /*!< entity lineweight, code 370 */
double ltypeScale; /*!< linetype scale, code 48 */
bool visible; /*!< entity visibility, code 60 */
int color24; /*!< 24-bit color, code 420 */
string colorName; /*!< color name, code 430 */
int space; /*!< space indicator 0 = model, 1 paper, code 67*/
bool haveExtrusion; /*!< set to true if the entity have extrusion*/
private:
DRW_Coord extAxisX;
DRW_Coord extAxisY;
};
// ! Class to handle point entity
/*!
* Class to handle point entity
* @author Rallaz
*/
class DRW_Point : public DRW_Entity
{
public:
DRW_Point()
{
eType = DRW::POINT;
basePoint.z = extPoint.x = extPoint.y = 0;
extPoint.z = 1;
thickness = 0;
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
DRW_Coord basePoint; /*!< base point, code 10, 20 & 30 */
double thickness; /*!< thickness, code 39 */
DRW_Coord extPoint; /*!< Dir extrusion normal vector, code 210, 220 & 230 */
};
// ! Class to handle line entity
/*!
* Class to handle line entity
* @author Rallaz
*/
class DRW_Line : public DRW_Point
{
public:
DRW_Line()
{
eType = DRW::LINE;
secPoint.z = 0;
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
DRW_Coord secPoint; /*!< second point, code 11, 21 & 31 */
};
// ! Class to handle ray entity
/*!
* Class to handle ray entity
* @author Rallaz
*/
class DRW_Ray : public DRW_Line
{
public:
DRW_Ray()
{
eType = DRW::RAY;
}
};
// ! Class to handle xline entity
/*!
* Class to handle xline entity
* @author Rallaz
*/
class DRW_Xline : public DRW_Line
{
public:
DRW_Xline()
{
eType = DRW::XLINE;
}
};
// ! Class to handle circle entity
/*!
* Class to handle circle entity
* @author Rallaz
*/
class DRW_Circle : public DRW_Point
{
public:
DRW_Circle()
{
eType = DRW::CIRCLE;
}
virtual void applyExtrusion();
void parseCode( int code, dxfReader* reader );
public:
double radious; /*!< radius, code 40 */
};
// ! Class to handle arc entity
/*!
* Class to handle arc entity
* @author Rallaz
*/
class DRW_Arc : public DRW_Circle
{
public:
DRW_Arc()
{
eType = DRW::ARC;
isccw = 1;
}
virtual void applyExtrusion() { DRW_Circle::applyExtrusion(); }
void parseCode( int code, dxfReader* reader );
public:
double staangle; /*!< start angle, code 50 in radians*/
double endangle; /*!< end angle, code 51 in radians */
int isccw; /*!< is counter clockwise arc?, only used in hatch, code 73 */
};
// ! Class to handle ellipse entity
/*!
* Class to handle ellipse and elliptic arc entity
* Note: start/end parameter are in radians for ellipse entity but
* for hatch boundary are in degrees
* @author Rallaz
*/
class DRW_Ellipse : public DRW_Line
{
public:
DRW_Ellipse()
{
eType = DRW::ELLIPSE;
isccw = 1;
}
void parseCode( int code, dxfReader* reader );
void toPolyline( DRW_Polyline* pol, int parts = 128 );
virtual void applyExtrusion();
void correctAxis();
public:
double ratio; /*!< ratio, code 40 */
double staparam; /*!< start parameter, code 41, 0.0 for full ellipse*/
double endparam; /*!< end parameter, code 42, 2*PI for full ellipse */
int isccw; /*!< is counter clockwise arc?, only used in hatch, code 73 */
};
// ! Class to handle trace entity
/*!
* Class to handle trace entity
* @author Rallaz
*/
class DRW_Trace : public DRW_Line
{
public:
DRW_Trace()
{
eType = DRW::TRACE;
thirdPoint.z = 0;
fourPoint.z = 0;
}
virtual void applyExtrusion();
void parseCode( int code, dxfReader* reader );
public:
DRW_Coord thirdPoint; /*!< third point, code 12, 22 & 32 */
DRW_Coord fourPoint; /*!< four point, code 13, 23 & 33 */
};
// ! Class to handle solid entity
/*!
* Class to handle solid entity
* @author Rallaz
*/
class DRW_Solid : public DRW_Trace
{
public:
DRW_Solid()
{
eType = DRW::SOLID;
}
void parseCode( int code, dxfReader* reader );
};
// ! Class to handle 3dface entity
/*!
* Class to handle 3dface entity
* @author Rallaz
*/
class DRW_3Dface : public DRW_Trace
{
public:
DRW_3Dface()
{
eType = DRW::E3DFACE;
invisibleflag = 0;
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
int invisibleflag; /*!< invisible edge flag, code 70 */
};
// ! Class to handle block entries
/*!
* Class to handle block entries
* @author Rallaz
*/
class DRW_Block : public DRW_Point
{
public:
DRW_Block()
{
eType = DRW::BLOCK;
layer = "0";
flags = 0;
name = "*U0";
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
UTF8STRING name; /*!< block name, code 2 */
int flags; /*!< block type, code 70 */
};
// ! Class to handle insert entries
/*!
* Class to handle insert entries
* @author Rallaz
*/
class DRW_Insert : public DRW_Point
{
public:
DRW_Insert()
{
eType = DRW::INSERT;
xscale = 1;
yscale = 1;
zscale = 1;
angle = 0;
colcount = 1;
rowcount = 1;
colspace = 0;
rowspace = 0;
}
virtual void applyExtrusion() { DRW_Point::applyExtrusion(); }
void parseCode( int code, dxfReader* reader );
public:
UTF8STRING name; /*!< block name, code 2 */
double xscale; /*!< x scale factor, code 41 */
double yscale; /*!< y scale factor, code 42 */
double zscale; /*!< z scale factor, code 43 */
double angle; /*!< rotation angle, code 50 */
int colcount; /*!< column count, code 70 */
int rowcount; /*!< row count, code 71 */
double colspace; /*!< column space, code 44 */
double rowspace; /*!< row space, code 45 */
};
// ! Class to handle lwpolyline entity
/*!
* Class to handle lwpolyline entity
* @author Rallaz
*/
class DRW_LWPolyline : public DRW_Entity
{
public:
DRW_LWPolyline()
{
eType = DRW::LWPOLYLINE;
elevation = thickness = width = 0.0;
flags = 0;
extPoint.x = extPoint.y = 0;
extPoint.z = 1;
vertex = NULL;
}
~DRW_LWPolyline()
{
while( !vertlist.empty() )
{
vertlist.pop_back();
}
}
virtual void applyExtrusion();
void addVertex( DRW_Vertex2D v )
{
DRW_Vertex2D* vert = new DRW_Vertex2D();
vert->x = v.x;
vert->y = v.y;
vert->stawidth = v.stawidth;
vert->endwidth = v.endwidth;
vert->bulge = v.bulge;
vertlist.push_back( vert );
}
DRW_Vertex2D* addVertex()
{
DRW_Vertex2D* vert = new DRW_Vertex2D();
vert->stawidth = 0;
vert->endwidth = 0;
vert->bulge = 0;
vertlist.push_back( vert );
return vert;
}
void parseCode( int code, dxfReader* reader );
public:
int vertexnum; /*!< number of vertex, code 90 */
int flags; /*!< polyline flag, code 70, default 0 */
double width; /*!< constant width, code 43 */
double elevation; /*!< elevation, code 38 */
double thickness; /*!< thickness, code 39 */
DRW_Coord extPoint; /*!< Dir extrusion normal vector, code 210, 220 & 230 */
DRW_Vertex2D* vertex; /*!< current vertex to add data */
std::vector<DRW_Vertex2D*> vertlist; /*!< vertex list */
};
// ! Class to handle insert entries
/*!
* Class to handle insert entries
* @author Rallaz
*/
class DRW_Text : public DRW_Line
{
public:
// ! Vertical alignments.
enum VAlign {
VBaseLine = 0, /*!< Top = 0 */
VBottom, /*!< Bottom = 1 */
VMiddle, /*!< Middle = 2 */
VTop /*!< Top = 3 */
};
// ! Horizontal alignments.
enum HAlign {
HLeft = 0, /*!< Left = 0 */
HCenter, /*!< Centered = 1 */
HRight, /*!< Right = 2 */
HAligned, /*!< Aligned = 3 (if VAlign==0) */
HMiddle, /*!< middle = 4 (if VAlign==0) */
HFit /*!< fit into point = 5 (if VAlign==0) */
};
DRW_Text()
{
eType = DRW::TEXT;
angle = 0;
widthscale = 1;
oblique = 0;
style = "STANDARD";
textgen = 0;
alignH = HLeft;
alignV = VBaseLine;
}
virtual void applyExtrusion() {} // RLZ TODO
void parseCode( int code, dxfReader* reader );
public:
double height; /*!< height text, code 40 */
UTF8STRING text; /*!< text string, code 1 */
double angle; /*!< rotation angle in degrees (360), code 50 */
double widthscale; /*!< width factor, code 41 */
double oblique; /*!< oblique angle, code 51 */
UTF8STRING style; /*!< style name, code 7 */
int textgen; /*!< text generation, code 71 */
enum HAlign alignH; /*!< horizontal align, code 72 */
enum VAlign alignV; /*!< vertical align, code 73 */
};
// ! Class to handle insert entries
/*!
* Class to handle insert entries
* @author Rallaz
*/
class DRW_MText : public DRW_Text
{
public:
// ! Attachments.
enum Attach {
TopLeft = 1,
TopCenter,
TopRight,
MiddleLeft,
MiddleCenter,
MiddleRight,
BottomLeft,
BottomCenter,
BottomRight
};
DRW_MText()
{
eType = DRW::MTEXT;
interlin = 1;
alignV = (VAlign) TopLeft;
textgen = 1;
haveXAxis = false; // if true needed to recalculate angle
}
void parseCode( int code, dxfReader* reader );
void updateAngle(); // recalculate angle if 'haveXAxis' is true
public:
double interlin; /*!< width factor, code 44 */
private:
bool haveXAxis;
};
// ! Class to handle vertex
/*!
* Class to handle vertex for polyline entity
* @author Rallaz
*/
class DRW_Vertex : public DRW_Point
{
public:
DRW_Vertex()
{
eType = DRW::VERTEX;
stawidth = endwidth = bulge = 0;
vindex1 = vindex2 = vindex3 = vindex4 = 0;
flags = identifier = 0;
}
DRW_Vertex( double sx, double sy, double sz, double b )
{
stawidth = endwidth = 0;
vindex1 = vindex2 = vindex3 = vindex4 = 0;
flags = identifier = 0;
basePoint.x = sx;
basePoint.y = sy;
basePoint.z = sz;
bulge = b;
}
void parseCode( int code, dxfReader* reader );
public:
double stawidth; /*!< Start width, code 40 */
double endwidth; /*!< End width, code 41 */
double bulge; /*!< bulge, code 42 */
int flags; /*!< vertex flag, code 70, default 0 */
double tgdir; /*!< curve fit tangent direction, code 50 */
int vindex1; /*!< polyface mesh vertex index, code 71, default 0 */
int vindex2; /*!< polyface mesh vertex index, code 72, default 0 */
int vindex3; /*!< polyface mesh vertex index, code 73, default 0 */
int vindex4; /*!< polyface mesh vertex index, code 74, default 0 */
int identifier; /*!< vertex identifier, code 91, default 0 */
};
// ! Class to handle polyline entity
/*!
* Class to handle polyline entity
* @author Rallaz
*/
class DRW_Polyline : public DRW_Point
{
public:
DRW_Polyline()
{
eType = DRW::POLYLINE;
defstawidth = defendwidth = 0.0;
basePoint.x = basePoint.y = 0.0;
flags = vertexcount = facecount = 0;
smoothM = smoothN = curvetype = 0;
}
~DRW_Polyline()
{
while( !vertlist.empty() )
{
vertlist.pop_back();
}
}
void addVertex( DRW_Vertex v )
{
DRW_Vertex* vert = new DRW_Vertex();
vert->basePoint.x = v.basePoint.x;
vert->basePoint.y = v.basePoint.y;
vert->basePoint.z = v.basePoint.z;
vert->stawidth = v.stawidth;
vert->endwidth = v.endwidth;
vert->bulge = v.bulge;
vertlist.push_back( vert );
}
void appendVertex( DRW_Vertex* v )
{
vertlist.push_back( v );
}
void parseCode( int code, dxfReader* reader );
public:
int flags; /*!< polyline flag, code 70, default 0 */
double defstawidth; /*!< Start width, code 40, default 0 */
double defendwidth; /*!< End width, code 41, default 0 */
int vertexcount; /*!< polygon mesh M vertex or polyface vertex num, code 71, default 0 */
int facecount; /*!< polygon mesh N vertex or polyface face num, code 72, default 0 */
int smoothM; /*!< smooth surface M density, code 73, default 0 */
int smoothN; /*!< smooth surface M density, code 74, default 0 */
int curvetype; /*!< curves & smooth surface type, code 75, default 0 */
std::vector<DRW_Vertex*> vertlist; /*!< vertex list */
};
// ! Class to handle spline entity
/*!
* Class to handle spline entity
* @author Rallaz
*/
class DRW_Spline : public DRW_Entity
{
public:
DRW_Spline()
{
eType = DRW::SPLINE;
flags = nknots = ncontrol = nfit = 0;
ex = ey = 0.0;
ez = 1.0;
tolknot = tolcontrol = tolfit = 0.0000001;
}
~DRW_Spline()
{
while( !controllist.empty() )
{
controllist.pop_back();
}
while( !fitlist.empty() )
{
fitlist.pop_back();
}
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
double ex; /*!< normal vector x coordinate, code 210 */
double ey; /*!< normal vector y coordinate, code 220 */
double ez; /*!< normal vector z coordinate, code 230 */
double tgsx; /*!< start tangent x coordinate, code 12 */
double tgsy; /*!< start tangent y coordinate, code 22 */
double tgsz; /*!< start tangent z coordinate, code 32 */
double tgex; /*!< end tangent x coordinate, code 13 */
double tgey; /*!< end tangent y coordinate, code 23 */
double tgez; /*!< end tangent z coordinate, code 33 */
int flags; /*!< spline flag, code 70 */
int degree; /*!< degree of the spline, code 71 */
int nknots; /*!< number of knots, code 72, default 0 */
int ncontrol; /*!< number of control points, code 73, default 0 */
int nfit; /*!< number of fit points, code 74, default 0 */
double tolknot; /*!< knot tolerance, code 42, default 0.0000001 */
double tolcontrol; /*!< control point tolerance, code 43, default 0.0000001 */
double tolfit; /*!< fit point tolerance, code 44, default 0.0000001 */
std::vector<double> knotslist; /*!< knots list, code 40 */
std::vector<DRW_Coord*> controllist; /*!< control points list, code 10, 20 & 30 */
std::vector<DRW_Coord*> fitlist; /*!< fit points list, code 11, 21 & 31 */
private:
DRW_Coord* controlpoint; /*!< current control point to add data */
DRW_Coord* fitpoint; /*!< current fit point to add data */
};
// ! Class to handle hatch loop
/*!
* Class to handle hatch loop
* @author Rallaz
*/
class DRW_HatchLoop
{
public:
DRW_HatchLoop( int t )
{
type = t;
numedges = 0;
}
~DRW_HatchLoop()
{
/* while (!pollist.empty()) {
* pollist.pop_back();
* }*/
while( !objlist.empty() )
{
objlist.pop_back();
}
}
void update()
{
numedges = objlist.size();
}
public:
int type; /*!< boundary path type, code 92, polyline=2, default=0 */
int numedges; /*!< number of edges (if not a polyline), code 93 */
// TODO: store lwpolylines as entities
// std::vector<DRW_LWPolyline *> pollist; /*!< polyline list */
std::vector<DRW_Entity*> objlist; /*!< entities list */
};
// ! Class to handle hatch entity
/*!
* Class to handle hatch entity
* @author Rallaz
*/
// TODO: handle lwpolylines, splines and ellipses
class DRW_Hatch : public DRW_Point
{
public:
DRW_Hatch()
{
eType = DRW::HATCH;
angle = scale = 0.0;
basePoint.x = basePoint.y = basePoint.z = 0.0;
loopsnum = hstyle = associative = 0;
solid = hpattern = 1;
deflines = doubleflag = 0;
loop = NULL;
clearEntities();
}
~DRW_Hatch()
{
while( !looplist.empty() )
{
looplist.pop_back();
}
}
void appendLoop( DRW_HatchLoop* v )
{
looplist.push_back( v );
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
UTF8STRING name; /*!< hatch pattern name, code 2 */
int solid; /*!< solid fill flag, code 70, solid=1, pattern=0 */
int associative; /*!< associativity, code 71, associatve=1, non-assoc.=0 */
int hstyle; /*!< hatch style, code 75 */
int hpattern; /*!< hatch pattern type, code 76 */
int doubleflag; /*!< hatch pattern double flag, code 77, double=1, single=0 */
int loopsnum; /*!< namber of boundary paths (loops), code 91 */
double angle; /*!< hatch pattern angle, code 52 */
double scale; /*!< hatch pattern scale, code 41 */
int deflines; /*!< number of pattern definition lines, code 78 */
std::vector<DRW_HatchLoop*> looplist; /*!< polyline list */
private:
void clearEntities()
{
pt = line = NULL;
pline = NULL;
arc = NULL;
ellipse = NULL;
spline = NULL;
plvert = NULL;
}
void addLine()
{
clearEntities();
if( loop )
{
pt = line = new DRW_Line;
loop->objlist.push_back( line );
}
}
void addArc()
{
clearEntities();
if( loop )
{
pt = arc = new DRW_Arc;
loop->objlist.push_back( arc );
}
}
void addEllipse()
{
clearEntities();
if( loop )
{
pt = ellipse = new DRW_Ellipse;
loop->objlist.push_back( ellipse );
}
}
void addSpline()
{
clearEntities();
if( loop )
{
pt = NULL;
spline = new DRW_Spline;
loop->objlist.push_back( spline );
}
}
DRW_HatchLoop* loop; /*!< current loop to add data */
DRW_Line* line;
DRW_Arc* arc;
DRW_Ellipse* ellipse;
DRW_Spline* spline;
DRW_LWPolyline* pline;
DRW_Point* pt;
DRW_Vertex2D* plvert;
bool ispol;
};
// ! Class to handle image entity
/*!
* Class to handle image entity
* @author Rallaz
*/
class DRW_Image : public DRW_Line
{
public:
DRW_Image()
{
eType = DRW::IMAGE;
vz = fade = clip = 0;
brightness = contrast = 50;
}
void parseCode( int code, dxfReader* reader );
public:
string ref; /*!< Hard reference to imagedef object, code 340 */
double vx; /*!< V-vector of single pixel, x coordinate, code 12 */
double vy; /*!< V-vector of single pixel, y coordinate, code 22 */
double vz; /*!< V-vector of single pixel, z coordinate, code 32 */
double sizeu; /*!< image size in pixels, U value, code 13 */
double sizev; /*!< image size in pixels, V value, code 23 */
double dz; /*!< z coordinate, code 33 */
int clip; /*!< Clipping state, code 280, 0=off 1=on */
int brightness; /*!< Brightness value, code 281, (0-100) default 50 */
int contrast; /*!< Brightness value, code 282, (0-100) default 50 */
int fade; /*!< Brightness value, code 283, (0-100) default 0 */
};
// ! Base class for dimension entity
/*!
* Base class for dimension entity
* @author Rallaz
*/
class DRW_Dimension : public DRW_Entity
{
public:
DRW_Dimension()
{
eType = DRW::DIMENSION;
linesty = 1;
linefactor = extPoint.z = 1.0;
angle = oblique = rot = 0.0;
align = 5;
style = "STANDARD";
defPoint.z = extPoint.x = extPoint.y = 0;
textPoint.z = rot = 0;
clonePoint.x = clonePoint.y = clonePoint.z = 0;
}
DRW_Dimension( const DRW_Dimension& d ) : DRW_Entity( d )
{
eType = DRW::DIMENSION;
type = d.type;
name = d.name;
defPoint = d.defPoint;
textPoint = d.textPoint;
text = d.text;
style = d.style;
align = d.align;
linesty = d.linesty;
linefactor = d.linefactor;
rot = d.rot;
extPoint = d.extPoint;
clonePoint = d.clonePoint;
def1 = d.def1;
def2 = d.def2;
angle = d.angle;
oblique = d.oblique;
arcPoint = d.arcPoint;
circlePoint = d.circlePoint;
length = d.length;
}
virtual ~DRW_Dimension() {}
void parseCode( int code, dxfReader* reader );
virtual void applyExtrusion() {}
DRW_Coord getDefPoint() const { return defPoint; } /*!< Definition point, code 10, 20 & 30 */
void setDefPoint( const DRW_Coord p ) { defPoint = p; }
DRW_Coord getTextPoint() const { return textPoint; } /*!< Middle point of text, code 11, 21 & 31 */
void setTextPoint( const DRW_Coord p ) { textPoint = p; }
string getStyle() const { return style; } /*!< Dimension style, code 3 */
void setStyle( const string s ) { style = s; }
int getAlign() const { return align; } /*!< attachment point, code 71 */
void setAlign( const int a ) { align = a; }
int getTextLineStyle() const { return linesty; } /*!< Dimension text line spacing style, code 72, default 1 */
void setTextLineStyle( const int l ) { linesty = l; }
string getText() const { return text; } /*!< Dimension text explicitly entered by the user, code 1 */
void setText( const string t ) { text = t; }
double getTextLineFactor() const { return linefactor; } /*!< Dimension text line spacing factor, code 41, default 1? */
void setTextLineFactor( const double l ) { linefactor = l; }
double getDir() const { return rot; } /*!< rotation angle of the dimension text, code 53 (optional) default 0 */
void setDir( const double d ) { rot = d; }
DRW_Coord getExtrusion() { return extPoint; } /*!< extrusion, code 210, 220 & 230 */
void setExtrusion( const DRW_Coord p ) { extPoint = p; }
string getName() { return name; } /*!< Name of the block that contains the entities, code 2 */
void setName( const string s ) { name = s; }
// int getType(){ return type;} /*!< Dimension type, code 70 */
protected:
DRW_Coord getPt2() const { return clonePoint; }
void setPt2( const DRW_Coord p ) { clonePoint = p; }
DRW_Coord getPt3() const { return def1; }
void setPt3( const DRW_Coord p ) { def1 = p; }
DRW_Coord getPt4() const { return def2; }
void setPt4( const DRW_Coord p ) { def2 = p; }
DRW_Coord getPt5() const { return circlePoint; }
void setPt5( const DRW_Coord p ) { circlePoint = p; }
DRW_Coord getPt6() const { return arcPoint; }
void setPt6( const DRW_Coord p ) { arcPoint = p; }
double getAn50() const { return angle; } /*!< Angle of rotated, horizontal, or vertical dimensions, code 50 */
void setAn50( const double d ) { angle = d; }
double getOb52() const { return oblique; } /*!< oblique angle, code 52 */
void setOb52( const double d ) { oblique = d; }
double getRa40() const { return length; } /*!< Leader length, code 40 */
void setRa40( const double d ) { length = d; }
public:
int type; /*!< Dimension type, code 70 */
private:
string name; /*!< Name of the block that contains the entities, code 2 */
DRW_Coord defPoint; /*!< definition point, code 10, 20 & 30 (WCS) */
DRW_Coord textPoint; /*!< Middle point of text, code 11, 21 & 31 (OCS) */
UTF8STRING text; /*!< Dimension text explicitly entered by the user, code 1 */
UTF8STRING style; /*!< Dimension style, code 3 */
int align; /*!< attachment point, code 71 */
int linesty; /*!< Dimension text line spacing style, code 72, default 1 */
double linefactor; /*!< Dimension text line spacing factor, code 41, default 1? (value range 0.25 to 4.00*/
double rot; /*!< rotation angle of the dimension text, code 53 */
DRW_Coord extPoint; /*!< extrusion normal vector, code 210, 220 & 230 */
// double hdir; /*!< horizontal direction for the dimension, code 51, default ? */
DRW_Coord clonePoint; /*!< Insertion point for clones (Baseline & Continue), code 12, 22 & 32 (OCS) */
DRW_Coord def1; /*!< Definition point 1for linear & angular, code 13, 23 & 33 (WCS) */
DRW_Coord def2; /*!< Definition point 2, code 14, 24 & 34 (WCS) */
double angle; /*!< Angle of rotated, horizontal, or vertical dimensions, code 50 */
double oblique; /*!< oblique angle, code 52 */
DRW_Coord circlePoint; /*!< Definition point for diameter, radius & angular dims code 15, 25 & 35 (WCS) */
DRW_Coord arcPoint; /*!< Point defining dimension arc, x coordinate, code 16, 26 & 36 (OCS) */
double length; /*!< Leader length, code 40 */
};
// ! Class to handle aligned dimension entity
/*!
* Class to handle aligned dimension entity
* @author Rallaz
*/
class DRW_DimAligned : public DRW_Dimension
{
public:
DRW_DimAligned()
{
eType = DRW::DIMALIGNED;
}
DRW_DimAligned( const DRW_Dimension& d ) : DRW_Dimension( d )
{
eType = DRW::DIMALIGNED;
}
DRW_Coord getClonepoint() const { return getPt2(); } /*!< Insertion for clones (Baseline & Continue), 12, 22 & 32 */
void setClonePoint( DRW_Coord c ) { setPt2( c ); }
DRW_Coord getDimPoint() const { return getDefPoint(); } /*!< dim line location point, code 10, 20 & 30 */
void setDimPoint( const DRW_Coord p ) { setDefPoint( p ); }
DRW_Coord getDef1Point() const { return getPt3(); } /*!< Definition point 1, code 13, 23 & 33 */
void setDef1Point( const DRW_Coord p ) { setPt3( p ); }
DRW_Coord getDef2Point() const { return getPt4(); } /*!< Definition point 2, code 14, 24 & 34 */
void setDef2Point( const DRW_Coord p ) { setPt4( p ); }
};
// ! Class to handle linear or rotated dimension entity
/*!
* Class to handle linear or rotated dimension entity
* @author Rallaz
*/
class DRW_DimLinear : public DRW_DimAligned
{
public:
DRW_DimLinear()
{
eType = DRW::DIMLINEAR;
}
DRW_DimLinear( const DRW_Dimension& d ) : DRW_DimAligned( d )
{
eType = DRW::DIMLINEAR;
}
double getAngle() const { return getAn50(); } /*!< Angle of rotated, horizontal, or vertical dimensions, code 50 */
void setAngle( const double d ) { setAn50( d ); }
double getOblique() const { return getOb52(); } /*!< oblique angle, code 52 */
void setOblique( const double d ) { setOb52( d ); }
};
// ! Class to handle radial dimension entity
/*!
* Class to handle aligned, linear or rotated dimension entity
* @author Rallaz
*/
class DRW_DimRadial : public DRW_Dimension
{
public:
DRW_DimRadial()
{
eType = DRW::DIMRADIAL;
}
DRW_DimRadial( const DRW_Dimension& d ) : DRW_Dimension( d )
{
eType = DRW::DIMRADIAL;
}
DRW_Coord getCenterPoint() const { return getDefPoint(); } /*!< center point, code 10, 20 & 30 */
void setCenterPoint( const DRW_Coord p ) { setDefPoint( p ); }
DRW_Coord getDiameterPoint() const { return getPt5(); } /*!< Definition point for radius, code 15, 25 & 35 */
void setDiameterPoint( const DRW_Coord p ) { setPt5( p ); }
double getLeaderLength() const { return getRa40(); } /*!< Leader length, code 40 */
void setLeaderLength( const double d ) { setRa40( d ); }
};
// ! Class to handle radial dimension entity
/*!
* Class to handle aligned, linear or rotated dimension entity
* @author Rallaz
*/
class DRW_DimDiametric : public DRW_Dimension
{
public:
DRW_DimDiametric()
{
eType = DRW::DIMDIAMETRIC;
}
DRW_DimDiametric( const DRW_Dimension& d ) : DRW_Dimension( d )
{
eType = DRW::DIMDIAMETRIC;
}
DRW_Coord getDiameter1Point() const { return getPt5(); } /*!< First definition point for diameter, code 15, 25 & 35 */
void setDiameter1Point( const DRW_Coord p ) { setPt5( p ); }
DRW_Coord getDiameter2Point() const { return getDefPoint(); } /*!< Oposite point for diameter, code 10, 20 & 30 */
void setDiameter2Point( const DRW_Coord p ) { setDefPoint( p ); }
double getLeaderLength() const { return getRa40(); } /*!< Leader length, code 40 */
void setLeaderLength( const double d ) { setRa40( d ); }
};
// ! Class to handle angular dimension entity
/*!
* Class to handle angular dimension entity
* @author Rallaz
*/
class DRW_DimAngular : public DRW_Dimension
{
public:
DRW_DimAngular()
{
eType = DRW::DIMANGULAR;
}
DRW_DimAngular( const DRW_Dimension& d ) : DRW_Dimension( d )
{
eType = DRW::DIMANGULAR;
}
DRW_Coord getFirstLine1() const { return getPt3(); } /*!< Definition point line 1-1, code 13, 23 & 33 */
void setFirstLine1( const DRW_Coord p ) { setPt3( p ); }
DRW_Coord getFirstLine2() const { return getPt4(); } /*!< Definition point line 1-2, code 14, 24 & 34 */
void setFirstLine2( const DRW_Coord p ) { setPt4( p ); }
DRW_Coord getSecondLine1() const { return getPt5(); } /*!< Definition point line 2-1, code 15, 25 & 35 */
void setSecondLine1( const DRW_Coord p ) { setPt5( p ); }
DRW_Coord getSecondLine2() const { return getDefPoint(); } /*!< Definition point line 2-2, code 10, 20 & 30 */
void setSecondLine2( const DRW_Coord p ) { setDefPoint( p ); }
DRW_Coord getDimPoint() const { return getPt6(); } /*!< Dimension definition point, code 16, 26 & 36 */
void setDimPoint( const DRW_Coord p ) { setPt6( p ); }
};
// ! Class to handle angular 3p dimension entity
/*!
* Class to handle angular 3p dimension entity
* @author Rallaz
*/
class DRW_DimAngular3p : public DRW_Dimension
{
public:
DRW_DimAngular3p()
{
eType = DRW::DIMANGULAR3P;
}
DRW_DimAngular3p( const DRW_Dimension& d ) : DRW_Dimension( d )
{
eType = DRW::DIMANGULAR3P;
}
DRW_Coord getFirstLine() const { return getPt3(); } /*!< Definition point line 1, code 13, 23 & 33 */
void setFirstLine( const DRW_Coord p ) { setPt3( p ); }
DRW_Coord getSecondLine() const { return getPt4(); } /*!< Definition point line 2, code 14, 24 & 34 */
void setSecondLine( const DRW_Coord p ) { setPt4( p ); }
DRW_Coord getVertexPoint() const { return getPt5(); } /*!< Vertex point, code 15, 25 & 35 */
void SetVertexPoint( const DRW_Coord p ) { setPt5( p ); }
DRW_Coord getDimPoint() const { return getDefPoint(); } /*!< Dimension definition point, code 10, 20 & 30 */
void setDimPoint( const DRW_Coord p ) { setDefPoint( p ); }
};
// ! Class to handle ordinate dimension entity
/*!
* Class to handle ordinate dimension entity
* @author Rallaz
*/
class DRW_DimOrdinate : public DRW_Dimension
{
public:
DRW_DimOrdinate()
{
eType = DRW::DIMORDINATE;
}
DRW_DimOrdinate( const DRW_Dimension& d ) : DRW_Dimension( d )
{
eType = DRW::DIMORDINATE;
}
DRW_Coord getOriginPoint() const { return getDefPoint(); } /*!< Origin definition point, code 10, 20 & 30 */
void setOriginPoint( const DRW_Coord p ) { setDefPoint( p ); }
DRW_Coord getFirstLine() const { return getPt3(); } /*!< Feature location point, code 13, 23 & 33 */
void setFirstLine( const DRW_Coord p ) { setPt3( p ); }
DRW_Coord getSecondLine() const { return getPt4(); } /*!< Leader end point, code 14, 24 & 34 */
void setSecondLine( const DRW_Coord p ) { setPt4( p ); }
};
// ! Class to handle leader entity
/*!
* Class to handle leader entity
* @author Rallaz
*/
class DRW_Leader : public DRW_Entity
{
public:
DRW_Leader()
{
eType = DRW::LEADER;
flag = 3;
hookflag = vertnum = leadertype = 0;
extrusionPoint.x = extrusionPoint.y = 0.0;
arrow = 1;
extrusionPoint.z = 1.0;
}
~DRW_Leader()
{
while( !vertexlist.empty() )
{
vertexlist.pop_back();
}
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
UTF8STRING style; /*!< Dimension style name, code 3 */
int arrow; /*!< Arrowhead flag, code 71, 0=Disabled; 1=Enabled */
int leadertype; /*!< Leader path type, code 72, 0=Straight line segments; 1=Spline */
int flag; /*!< Leader creation flag, code 73, default 3 */
int hookline; /*!< Hook line direction flag, code 74, default 1 */
int hookflag; /*!< Hook line flag, code 75 */
double textheight; /*!< Text annotation height, code 40 */
double textwidth; /*!< Text annotation width, code 41 */
int vertnum; /*!< Number of vertices, code 76 */
int coloruse; /*!< Color to use if leader's DIMCLRD = BYBLOCK, code 77 */
string handle; /*!< Hard reference to associated annotation, code 340 */
DRW_Coord extrusionPoint; /*!< Normal vector, code 210, 220 & 230 */
DRW_Coord horizdir; /*!< "Horizontal" direction for leader, code 211, 221 & 231 */
DRW_Coord offsetblock; /*!< Offset of last leader vertex from block, code 212, 222 & 232 */
DRW_Coord offsettext; /*!< Offset of last leader vertex from annotation, code 213, 223 & 233 */
std::vector<DRW_Coord*> vertexlist; /*!< vertex points list, code 10, 20 & 30 */
private:
DRW_Coord* vertexpoint; /*!< current control point to add data */
};
// ! Class to handle viewport entity
/*!
* Class to handle viewport entity
* @author Rallaz
*/
class DRW_Viewport : public DRW_Point
{
public:
DRW_Viewport()
{
eType = DRW::VIEWPORT;
vpstatus = 0;
pswidth = 205;
psheight = 156;
centerPX = 128.5;
centerPY = 97.5;
}
virtual void applyExtrusion() {}
void parseCode( int code, dxfReader* reader );
public:
double pswidth; /*!< Width in paper space units, code 40 */
double psheight; /*!< Height in paper space units, code 41 */
int vpstatus; /*!< Viewport status, code 68 */
int vpID; /*!< Viewport ID, code 69 */
double centerPX; /*!< view center piont X, code 12 */
double centerPY; /*!< view center piont Y, code 22 */
};
#endif
// EOF
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#ifndef DRW_INTERFACE_H
#define DRW_INTERFACE_H
#include <string.h>
#include "drw_entities.h"
#include "drw_objects.h"
// #include "dl_extrusion.h"
/**
* Abstract class (interface) for comunicate dxfReader with the application.
* Inherit your class which takes care of the entities in the
* processed DXF file from this interface.
*
* @author Rallaz
*/
class DRW_Interface
{
public:
DRW_Interface()
{
// extrusion = new DL_Extrusion;
}
virtual ~DRW_Interface()
{
// delete extrusion;
}
/** Called when header is parsed. */
virtual void addHeader( const DRW_Header* data ) = 0;
/** Called for every line Type. */
virtual void addLType( const DRW_LType& data ) = 0;
/** Called for every layer. */
virtual void addLayer( const DRW_Layer& data ) = 0;
/** Called for every dim style. */
virtual void addDimStyle( const DRW_Dimstyle& data ) = 0;
/** Called for every VPORT table. */
virtual void addVport( const DRW_Vport& data ) = 0;
/** Called for every text style. */
virtual void addTextStyle( const DRW_Textstyle& data ) = 0;
/**
* Called for every block. Note: all entities added after this
* command go into this block until endBlock() is called.
*
* @see endBlock()
*/
virtual void addBlock( const DRW_Block& data ) = 0;
/**
* In DWG called when the following entities corresponding to a
* block different from the current. Note: all entities added after this
* command go into this block until setBlock() is called already.
*
* int handle are the value of DRW_Block::handleBlock added with addBlock()
*/
virtual void setBlock( const int handle ) = 0;
/** Called to end the current block */
virtual void endBlock() = 0;
/** Called for every point */
virtual void addPoint( const DRW_Point& data ) = 0;
/** Called for every line */
virtual void addLine( const DRW_Line& data ) = 0;
/** Called for every ray */
virtual void addRay( const DRW_Ray& data ) = 0;
/** Called for every xline */
virtual void addXline( const DRW_Xline& data ) = 0;
/** Called for every arc */
virtual void addArc( const DRW_Arc& data ) = 0;
/** Called for every circle */
virtual void addCircle( const DRW_Circle& data ) = 0;
/** Called for every ellipse */
virtual void addEllipse( const DRW_Ellipse& data ) = 0;
/** Called for every lwpolyline */
virtual void addLWPolyline( const DRW_LWPolyline& data ) = 0;
/** Called for every polyline start */
virtual void addPolyline( const DRW_Polyline& data ) = 0;
/** Called for every spline */
virtual void addSpline( const DRW_Spline* data ) = 0;
/** Called for every spline knot value */
virtual void addKnot( const DRW_Entity& data ) = 0;
/** Called for every insert. */
virtual void addInsert( const DRW_Insert& data ) = 0;
/** Called for every trace start */
virtual void addTrace( const DRW_Trace& data ) = 0;
/** Called for every 3dface start */
virtual void add3dFace( const DRW_3Dface& data ) = 0;
/** Called for every solid start */
virtual void addSolid( const DRW_Solid& data ) = 0;
/** Called for every Multi Text entity. */
virtual void addMText( const DRW_MText& data ) = 0;
/** Called for every Text entity. */
virtual void addText( const DRW_Text& data ) = 0;
/**
* Called for every aligned dimension entity.
*/
virtual void addDimAlign( const DRW_DimAligned* data ) = 0;
/**
* Called for every linear or rotated dimension entity.
*/
virtual void addDimLinear( const DRW_DimLinear* data ) = 0;
/**
* Called for every radial dimension entity.
*/
virtual void addDimRadial( const DRW_DimRadial* data ) = 0;
/**
* Called for every diametric dimension entity.
*/
virtual void addDimDiametric( const DRW_DimDiametric* data ) = 0;
/**
* Called for every angular dimension (2 lines version) entity.
*/
virtual void addDimAngular( const DRW_DimAngular* data ) = 0;
/**
* Called for every angular dimension (3 points version) entity.
*/
virtual void addDimAngular3P( const DRW_DimAngular3p* data ) = 0;
/**
* Called for every ordinate dimension entity.
*/
virtual void addDimOrdinate( const DRW_DimOrdinate* data ) = 0;
/**
* Called for every leader start.
*/
virtual void addLeader( const DRW_Leader* data ) = 0;
/**
* Called for every hatch entity.
*/
virtual void addHatch( const DRW_Hatch* data ) = 0;
/**
* Called for every viewport entity.
*/
virtual void addViewport( const DRW_Viewport& data ) = 0;
/**
* Called for every image entity.
*/
virtual void addImage( const DRW_Image* data ) = 0;
/**
* Called for every image definition.
*/
virtual void linkImage( const DRW_ImageDef* data ) = 0;
/**
* Called for every comment in the DXF file (code 999).
*/
virtual void addComment( const char* comment ) = 0;
/** Sets the current attributes for entities. */
/* void setExtrusion(double dx, double dy, double dz, double elevation) {
* extrusion->setDirection(dx, dy, dz);
* extrusion->setElevation(elevation);
* }*/
/** @return the current attributes used for new entities. */
// DL_Extrusion* getExtrusion() {
// return extrusion;
// }
virtual void writeHeader( DRW_Header& data ) = 0;
virtual void writeBlocks() = 0;
virtual void writeBlockRecords() = 0;
virtual void writeEntities() = 0;
virtual void writeLTypes() = 0;
virtual void writeLayers() = 0;
virtual void writeTextstyles() = 0;
virtual void writeVports() = 0;
virtual void writeDimstyles() = 0;
protected:
// DL_Attributes attributes;
// DL_Extrusion *extrusion;
};
#endif
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#include <iostream>
#include <math.h>
#include "drw_objects.h"
#include "intern/dxfreader.h"
#include "intern/dxfwriter.h"
// ! Base class for tables entries
/*!
* Base class for tables entries
* @author Rallaz
*/
void DRW_TableEntry::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 5:
handle = reader->getHandleString();
break;
case 330:
handleBlock = reader->getHandleString();
break;
case 2:
name = reader->getUtf8String();
break;
case 70:
flags = reader->getInt32();
break;
default:
break;
}
}
// ! Class to handle dimstyle entries
/*!
* Class to handle ldim style symbol table entries
* @author Rallaz
*/
void DRW_Dimstyle::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 105:
handle = reader->getHandleString();
break;
case 3:
dimpost = reader->getUtf8String();
break;
case 4:
dimapost = reader->getUtf8String();
break;
case 5:
dimblk = reader->getUtf8String();
break;
case 6:
dimblk1 = reader->getUtf8String();
break;
case 7:
dimblk2 = reader->getUtf8String();
break;
case 40:
dimscale = reader->getDouble();
break;
case 41:
dimasz = reader->getDouble();
break;
case 42:
dimexo = reader->getDouble();
break;
case 43:
dimdli = reader->getDouble();
break;
case 44:
dimexe = reader->getDouble();
break;
case 45:
dimrnd = reader->getDouble();
break;
case 46:
dimdle = reader->getDouble();
break;
case 47:
dimtp = reader->getDouble();
break;
case 48:
dimtm = reader->getDouble();
break;
case 140:
dimtxt = reader->getDouble();
break;
case 141:
dimcen = reader->getDouble();
break;
case 142:
dimtsz = reader->getDouble();
break;
case 143:
dimaltf = reader->getDouble();
break;
case 144:
dimlfac = reader->getDouble();
break;
case 145:
dimtvp = reader->getDouble();
break;
case 146:
dimtfac = reader->getDouble();
break;
case 147:
dimgap = reader->getDouble();
break;
case 148:
dimaltrnd = reader->getDouble();
break;
case 71:
dimtol = reader->getInt32();
break;
case 72:
dimlim = reader->getInt32();
break;
case 73:
dimtih = reader->getInt32();
break;
case 74:
dimtoh = reader->getInt32();
break;
case 75:
dimse1 = reader->getInt32();
break;
case 76:
dimse2 = reader->getInt32();
break;
case 77:
dimtad = reader->getInt32();
break;
case 78:
dimzin = reader->getInt32();
break;
case 79:
dimazin = reader->getInt32();
break;
case 170:
dimalt = reader->getInt32();
break;
case 171:
dimaltd = reader->getInt32();
break;
case 172:
dimtofl = reader->getInt32();
break;
case 173:
dimsah = reader->getInt32();
break;
case 174:
dimtix = reader->getInt32();
break;
case 175:
dimsoxd = reader->getInt32();
break;
case 176:
dimclrd = reader->getInt32();
break;
case 177:
dimclre = reader->getInt32();
break;
case 178:
dimclrt = reader->getInt32();
break;
case 179:
dimadec = reader->getInt32();
break;
case 270:
dimunit = reader->getInt32();
break;
case 271:
dimdec = reader->getInt32();
break;
case 272:
dimtdec = reader->getInt32();
break;
case 273:
dimaltu = reader->getInt32();
break;
case 274:
dimalttd = reader->getInt32();
break;
case 275:
dimaunit = reader->getInt32();
break;
case 276:
dimfrac = reader->getInt32();
break;
case 277:
dimlunit = reader->getInt32();
break;
case 278:
dimdsep = reader->getInt32();
break;
case 279:
dimtmove = reader->getInt32();
break;
case 280:
dimjust = reader->getInt32();
break;
case 281:
dimsd1 = reader->getInt32();
break;
case 282:
dimsd2 = reader->getInt32();
break;
case 283:
dimtolj = reader->getInt32();
break;
case 284:
dimtzin = reader->getInt32();
break;
case 285:
dimaltz = reader->getInt32();
break;
case 286:
dimaltttz = reader->getInt32();
break;
case 287:
dimfit = reader->getInt32();
break;
case 288:
dimupt = reader->getInt32();
break;
case 289:
dimatfit = reader->getInt32();
break;
case 340:
dimtxsty = reader->getUtf8String();
break;
case 341:
dimldrblk = reader->getUtf8String();
break;
case 342:
dimblk = reader->getUtf8String();
break;
case 343:
dimblk1 = reader->getUtf8String();
break;
case 344:
dimblk2 = reader->getUtf8String();
break;
default:
DRW_TableEntry::parseCode( code, reader );
break;
}
}
// ! Class to handle line type entries
/*!
* Class to handle line type symbol table entries
* @author Rallaz
*/
void DRW_LType::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 3:
desc = reader->getUtf8String();
break;
case 73:
size = reader->getInt32();
path.reserve( size );
break;
case 40:
length = reader->getDouble();
break;
case 49:
path.push_back( reader->getDouble() );
pathIdx++;
break;
/* case 74:
* haveShape = reader->getInt32();
* break;*/
default:
DRW_TableEntry::parseCode( code, reader );
break;
}
}
// ! Update line type
/*!
* Update the size and length of line type acording to the path
* @author Rallaz
*/
/*TODO: control max length permited */
void DRW_LType::update()
{
double d = 0;
size = path.size();
for( int i = 0; i< size; i++ )
{
d += fabs( path.at( i ) );
}
length = d;
}
// ! Class to handle layer entries
/*!
* Class to handle layer symbol table entries
* @author Rallaz
*/
void DRW_Layer::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 6:
lineType = reader->getUtf8String();
break;
case 62:
color = reader->getInt32();
break;
case 290:
plotF = reader->getBool();
break;
case 370:
lWeight = DRW_LW_Conv::dxfInt2lineWidth( reader->getInt32() );
break;
case 390:
handlePlotS = reader->getString();
break;
case 347:
handlePlotM = reader->getString();
break;
case 420:
color24 = reader->getInt32();
break;
default:
DRW_TableEntry::parseCode( code, reader );
break;
}
}
// ! Class to handle text style entries
/*!
* Class to handle text style symbol table entries
* @author Rallaz
*/
void DRW_Textstyle::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 3:
font = reader->getUtf8String();
break;
case 4:
bigFont = reader->getUtf8String();
break;
case 40:
height = reader->getDouble();
break;
case 41:
width = reader->getDouble();
break;
case 50:
oblique = reader->getDouble();
break;
case 42:
lastHeight = reader->getDouble();
break;
case 71:
genFlag = reader->getInt32();
break;
case 1071:
fontFamily = reader->getInt32();
break;
default:
DRW_TableEntry::parseCode( code, reader );
break;
}
}
// ! Class to handle vport entries
/*!
* Class to handle vport symbol table entries
* @author Rallaz
*/
void DRW_Vport::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 10:
lowerLeft.x = reader->getDouble();
break;
case 20:
lowerLeft.y = reader->getDouble();
break;
case 11:
UpperRight.x = reader->getDouble();
break;
case 21:
UpperRight.y = reader->getDouble();
break;
case 12:
center.x = reader->getDouble();
break;
case 22:
center.y = reader->getDouble();
break;
case 13:
snapBase.x = reader->getDouble();
break;
case 23:
snapBase.y = reader->getDouble();
break;
case 14:
snapSpacing.x = reader->getDouble();
break;
case 24:
snapSpacing.y = reader->getDouble();
break;
case 15:
gridSpacing.x = reader->getDouble();
break;
case 25:
gridSpacing.y = reader->getDouble();
break;
case 16:
viewDir.x = reader->getDouble();
break;
case 26:
viewDir.y = reader->getDouble();
break;
case 36:
viewDir.z = reader->getDouble();
break;
case 17:
viewTarget.x = reader->getDouble();
break;
case 27:
viewTarget.y = reader->getDouble();
break;
case 37:
viewTarget.z = reader->getDouble();
break;
case 40:
height = reader->getDouble();
break;
case 41:
ratio = reader->getDouble();
break;
case 42:
lensHeight = reader->getDouble();
break;
case 43:
frontClip = reader->getDouble();
break;
case 44:
backClip = reader->getDouble();
break;
case 50:
snapAngle = reader->getDouble();
break;
case 51:
twistAngle = reader->getDouble();
break;
case 71:
viewMode = reader->getInt32();
break;
case 72:
circleZoom = reader->getInt32();
break;
case 73:
fastZoom = reader->getInt32();
break;
case 74:
ucsIcon = reader->getInt32();
break;
case 75:
snap = reader->getInt32();
break;
case 76:
grid = reader->getInt32();
break;
case 77:
snapStyle = reader->getInt32();
break;
case 78:
snapIsopair = reader->getInt32();
break;
default:
DRW_TableEntry::parseCode( code, reader );
break;
}
}
void DRW_ImageDef::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 1:
name = reader->getUtf8String();
break;
case 5:
handle = reader->getString();
break;
case 10:
u = reader->getDouble();
break;
case 20:
v = reader->getDouble();
break;
case 11:
up = reader->getDouble();
break;
case 12:
vp = reader->getDouble();
break;
case 21:
vp = reader->getDouble();
break;
case 280:
loaded = reader->getInt32();
break;
case 281:
resolution = reader->getInt32();
break;
default:
break;
}
}
void DRW_Header::addComment( string c )
{
if( !comments.empty() )
comments += '\n';
comments += c;
}
void DRW_Header::parseCode( int code, dxfReader* reader )
{
switch( code )
{
case 9:
curr = new DRW_Variant();
name = reader->getString();
if( version < DRW::AC1015 && name == "$DIMUNIT" )
name = "$DIMLUNIT";
vars[name] = curr;
break;
case 1:
curr->addString( reader->getUtf8String() );
if( name =="$ACADVER" )
{
reader->setVersion( curr->content.s );
version = reader->getVersion();
}
curr->code = code;
break;
case 2:
curr->addString( reader->getUtf8String() );
curr->code = code;
break;
case 3:
curr->addString( reader->getUtf8String() );
if( name =="$DWGCODEPAGE" )
{
reader->setCodePage( curr->content.s );
curr->addString( reader->getCodePage() );
}
curr->code = code;
break;
case 6:
curr->addString( reader->getUtf8String() );
curr->code = code;
break;
case 7:
curr->addString( reader->getUtf8String() );
curr->code = code;
break;
case 8:
curr->addString( reader->getUtf8String() );
curr->code = code;
break;
case 10:
curr->addCoord( new DRW_Coord() );
curr->setCoordX( reader->getDouble() );
curr->code = code;
break;
case 20:
curr->setCoordY( reader->getDouble() );
break;
case 30:
curr->setCoordZ( reader->getDouble() );
curr->code = code;
break;
case 40:
curr->addDouble( reader->getDouble() );
curr->code = code;
break;
case 50:
curr->addDouble( reader->getDouble() );
curr->code = code;
break;
case 62:
curr->addInt( reader->getInt32() );
curr->code = code;
break;
case 70:
curr->addInt( reader->getInt32() );
curr->code = code;
break;
case 280:
curr->addInt( reader->getInt32() );
curr->code = code;
break;
case 290:
curr->addInt( reader->getInt32() );
curr->code = code;
break;
case 370:
curr->addInt( reader->getInt32() );
curr->code = code;
break;
case 380:
curr->addInt( reader->getInt32() );
curr->code = code;
break;
case 390:
curr->addString( reader->getUtf8String() );
curr->code = code;
break;
default:
break;
}
}
void DRW_Header::write( dxfWriter* writer, DRW::Version ver )
{
/*RLZ: TODO complete all vars to AC1024*/
double varDouble;
int varInt;
std::string varStr;
DRW_Coord varCoord;
writer->writeString( 2, "HEADER" );
writer->writeString( 9, "$ACADVER" );
switch( ver )
{
case DRW::AC1006: // unsupported version acad 10
case DRW::AC1009: // acad 11 & 12
varStr = "AC1009";
break;
case DRW::AC1012: // unsupported version acad 13
case DRW::AC1014: // acad 14
varStr = "AC1014";
break;
case DRW::AC1015: // acad 2000
varStr = "AC1015";
break;
case DRW::AC1018: // acad 2004
varStr = "AC1018";
break;
/* case DRW::AC1021: //acad 2007
* varStr = "AC1021";
* break;*/
case DRW::AC1024: // acad 2010
varStr = "AC1024";
break;
default: // acad 2007 default version
varStr = "AC1021";
break;
}
writer->writeString( 1, varStr );
writer->setVersion( &varStr );
if( ver > DRW::AC1012 )
{
writer->writeString( 9, "$HANDSEED" );
// RLZ dxfHex(5, 0xFFFF);
writer->writeString( 5, "20000" );
}
if( !getStr( "$DWGCODEPAGE", &varStr ) )
{
varStr = "ANSI_1252";
}
writer->writeString( 9, "$DWGCODEPAGE" );
writer->setCodePage( &varStr );
writer->writeString( 3, writer->getCodePage() );
writer->writeString( 9, "$INSBASE" );
if( getCoord( "$INSBASE", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
writer->writeDouble( 30, varCoord.z );
}
else
{
writer->writeDouble( 10, 0.0 );
writer->writeDouble( 20, 0.0 );
writer->writeDouble( 30, 0.0 );
}
writer->writeString( 9, "$EXTMIN" );
if( getCoord( "$EXTMIN", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
writer->writeDouble( 30, varCoord.z );
}
else
{
writer->writeDouble( 10, 1.0000000000000000E+020 );
writer->writeDouble( 20, 1.0000000000000000E+020 );
writer->writeDouble( 30, 1.0000000000000000E+020 );
}
writer->writeString( 9, "$EXTMAX" );
if( getCoord( "$EXTMAX", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
writer->writeDouble( 30, varCoord.z );
}
else
{
writer->writeDouble( 10, -1.0000000000000000E+020 );
writer->writeDouble( 20, -1.0000000000000000E+020 );
writer->writeDouble( 30, -1.0000000000000000E+020 );
}
writer->writeString( 9, "$LIMMIN" );
if( getCoord( "$LIMMIN", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
}
else
{
writer->writeDouble( 10, 0.0 );
writer->writeDouble( 20, 0.0 );
}
writer->writeString( 9, "$LIMMAX" );
if( getCoord( "$LIMMAX", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
}
else
{
writer->writeDouble( 10, 420.0 );
writer->writeDouble( 20, 297.0 );
}
writer->writeString( 9, "$ORTHOMODE" );
if( getInt( "$ORTHOMODE", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 0 );
writer->writeString( 9, "$LTSCALE" );
if( getDouble( "$LTSCALE", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 1.0 );
writer->writeString( 9, "$TEXTSTYLE" );
if( getStr( "$TEXTSTYLE", &varStr ) )
if( ver == DRW::AC1009 )
writer->writeUtf8Caps( 7, varStr );
else
writer->writeUtf8String( 7, varStr );
else
writer->writeString( 7, "STANDARD" );
writer->writeString( 9, "$DIMASZ" );
if( getDouble( "$DIMASZ", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 2.5 );
writer->writeString( 9, "$DIMSCALE" );
if( getDouble( "$DIMSCALE", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 1.0 );
writer->writeString( 9, "$DIMEXO" );
if( getDouble( "$DIMEXO", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 0.625 );
writer->writeString( 9, "$DIMEXE" );
if( getDouble( "$DIMEXE", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 1.25 );
writer->writeString( 9, "$DIMTXT" );
if( getDouble( "$DIMTXT", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 2.5 );
writer->writeString( 9, "$DIMTSZ" );
if( getDouble( "$DIMTSZ", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 0.0 );
if( ver > DRW::AC1009 )
{
writer->writeString( 9, "$DIMAUNIT" );
if( getInt( "$DIMAUNIT", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 0 );
writer->writeString( 9, "$DIMADEC" );
if( getInt( "$DIMADEC", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 0 );
}
// verify if exist "$DIMLUNIT" or obsolete "$DIMUNIT" (pre v2000)
if( !getInt( "$DIMLUNIT", &varInt ) )
{
if( !getInt( "$DIMUNIT", &varInt ) )
varInt = 2;
}
// verify valid values from 1 to 6
if( varInt<1 || varInt>6 )
varInt = 2;
if( ver > DRW::AC1014 )
{
writer->writeString( 9, "$DIMLUNIT" );
writer->writeInt16( 70, varInt );
}
else
{
writer->writeString( 9, "$DIMUNIT" );
writer->writeInt16( 70, varInt );
}
writer->writeString( 9, "$DIMSTYLE" );
if( getStr( "$DIMSTYLE", &varStr ) )
if( ver == DRW::AC1009 )
writer->writeUtf8Caps( 2, varStr );
else
writer->writeUtf8String( 2, varStr );
else
writer->writeString( 2, "STANDARD" );
writer->writeString( 9, "$DIMGAP" );
if( getDouble( "$DIMGAP", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 0.625 );
writer->writeString( 9, "$DIMTIH" );
if( getInt( "$DIMTIH", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 0 );
writer->writeString( 9, "$LUNITS" );
if( getInt( "$LUNITS", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 2 );
writer->writeString( 9, "$LUPREC" );
if( getInt( "$LUPREC", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 4 );
writer->writeString( 9, "$AUNITS" );
if( getInt( "$AUNITS", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 0 );
writer->writeString( 9, "$AUPREC" );
if( getInt( "$AUPREC", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 2 );
if( ver > DRW::AC1009 )
{
writer->writeString( 9, "$SPLINESEGS" );
if( getInt( "$SPLINESEGS", &varInt ) )
{
writer->writeInt16( 70, varInt );
}
else
writer->writeInt16( 70, 8 );
}
/* RLZ: moved to active VPORT, but can write in header if present*/
if( getInt( "$GRIDMODE", &varInt ) )
{
writer->writeString( 9, "$GRIDMODE" );
writer->writeInt16( 70, varInt );
}
if( getInt( "$SNAPSTYLE", &varInt ) )
{
writer->writeString( 9, "$SNAPSTYLE" );
writer->writeInt16( 70, varInt );
}
if( getCoord( "$GRIDUNIT", &varCoord ) )
{
writer->writeString( 9, "$GRIDUNIT" );
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
}
if( getCoord( "$VIEWCTR", &varCoord ) )
{
writer->writeString( 9, "$VIEWCTR" );
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
}
/* RLZ: moved to active VPORT, but can write in header if present*/
if( ver > DRW::AC1009 )
{
writer->writeString( 9, "$PINSBASE" );
if( getCoord( "$PINSBASE", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
writer->writeDouble( 30, varCoord.z );
}
else
{
writer->writeDouble( 10, 0.0 );
writer->writeDouble( 20, 0.0 );
writer->writeDouble( 30, 0.0 );
}
}
writer->writeString( 9, "$PLIMMIN" );
if( getCoord( "$PLIMMIN", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
}
else
{
writer->writeDouble( 10, 0.0 );
writer->writeDouble( 20, 0.0 );
}
writer->writeString( 9, "$PLIMMAX" );
if( getCoord( "$PLIMMAX", &varCoord ) )
{
writer->writeDouble( 10, varCoord.x );
writer->writeDouble( 20, varCoord.y );
}
else
{
writer->writeDouble( 10, 297.0 );
writer->writeDouble( 20, 210.0 );
}
if( ver > DRW::AC1014 )
{
writer->writeString( 9, "$INSUNITS" );
if( getInt( "$INSUNITS", &varInt ) )
writer->writeInt16( 70, varInt );
else
writer->writeInt16( 70, 0 );
}
if( ver > DRW::AC1009 )
{
writer->writeString( 9, "$PSVPSCALE" );
if( getDouble( "$PSVPSCALE", &varDouble ) )
writer->writeDouble( 40, varDouble );
else
writer->writeDouble( 40, 0.0 );
}
std::map<std::string, DRW_Variant*>::const_iterator it;
for( it = vars.begin(); it != vars.end(); it++ )
{
std::cerr << (*it).first << std::endl;
}
}
bool DRW_Header::getDouble( string key, double* varDouble )
{
bool result = false;
std::map<std::string, DRW_Variant*>::iterator it;
it = vars.find( key );
if( it != vars.end() )
{
DRW_Variant* var = (*it).second;
if( var->type == DRW_Variant::DOUBLE )
{
*varDouble = var->content.d;
result = true;
}
vars.erase( it );
}
return result;
}
bool DRW_Header::getInt( string key, int* varInt )
{
bool result = false;
std::map<std::string, DRW_Variant*>::iterator it;
it = vars.find( key );
if( it != vars.end() )
{
DRW_Variant* var = (*it).second;
if( var->type == DRW_Variant::INTEGER )
{
*varInt = var->content.i;
result = true;
}
vars.erase( it );
}
return result;
}
bool DRW_Header::getStr( string key, std::string* varStr )
{
bool result = false;
std::map<std::string, DRW_Variant*>::iterator it;
it = vars.find( key );
if( it != vars.end() )
{
DRW_Variant* var = (*it).second;
if( var->type == DRW_Variant::STRING )
{
*varStr = *var->content.s;
result = true;
}
vars.erase( it );
}
return result;
}
bool DRW_Header::getCoord( string key, DRW_Coord* varCoord )
{
bool result = false;
std::map<std::string, DRW_Variant*>::iterator it;
it = vars.find( key );
if( it != vars.end() )
{
DRW_Variant* var = (*it).second;
if( var->type == DRW_Variant::COORD )
{
*varCoord = *var->content.v;
result = true;
}
vars.erase( it );
}
return result;
}
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#ifndef DRW_OBJECTS_H
#define DRW_OBJECTS_H
#include <string>
#include <vector>
#include <map>
#include "drw_base.h"
class dxfReader;
class dxfWriter;
using std::string;
namespace DRW {
// ! Table entries type.
enum TTYPE {
UNKNOWNT,
LTYPE,
LAYER,
STYLE,
DIMSTYLE,
VPORT,
BLOCK_RECORD
};
}
// ! Base class for tables entries
/*!
* Base class for tables entries
* @author Rallaz
*/
class DRW_TableEntry
{
public:
// initializes default values
DRW_TableEntry()
{
tType = DRW::UNKNOWNT;
flags = 0;
}
virtual ~DRW_TableEntry() {}
protected:
void parseCode( int code, dxfReader* reader );
public:
enum DRW::TTYPE tType; /*!< enum: entity type, code 0 */
int handle; /*!< entity identifier, code 5 */
int handleBlock; /*!< Soft-pointer ID/handle to owner BLOCK_RECORD object, code 330 */
UTF8STRING name; /*!< entry name, code 2 */
int flags; /*!< Flags relevant to entry, code 70 */
};
// ! Class to handle dimstyle entries
/*!
* Class to handle dim style symbol table entries
* @author Rallaz
*/
class DRW_Dimstyle : public DRW_TableEntry
{
public:
DRW_Dimstyle() { reset(); }
void reset()
{
tType = DRW::DIMSTYLE;
dimasz = dimtxt = dimexe = 0.18;
dimexo = 0.0625;
dimgap = dimcen = 0.09;
dimtxsty = "Standard";
dimscale = dimlfac = dimtfac = 1.0;
dimdli = 0.38;
dimrnd = dimdle = dimtp = dimtm = dimtsz = dimtvp = 0.0;
dimaltf = 25.4;
dimtol = dimlim = dimse1 = dimse2 = dimtad = dimzin = 0;
dimtoh = dimtolj = 1;
dimalt = dimtofl = dimsah = dimtix = dimsoxd = 0;
dimaltd = dimunit = dimaltu = dimalttd = dimlunit = 2;
dimclrd = dimclre = dimclrt = dimjust = dimupt = 0;
dimazin = dimaltz = dimaltttz = dimtzin = dimfrac = 0;
dimtih = dimadec = dimaunit = dimsd1 = dimsd2 = dimtmove = 0;
dimaltrnd = 0.0;
dimdec = dimtdec = 4;
dimfit = dimatfit = 3;
dimdsep = '.';
dimlwd = dimlwe = -2;
}
void parseCode( int code, dxfReader* reader );
public:
// V12
UTF8STRING dimpost; /*!< code 3 */
UTF8STRING dimapost; /*!< code 4 */
/* handle are code 105 */
UTF8STRING dimblk; /*!< code 5, code 342 V2000+ */
UTF8STRING dimblk1; /*!< code 6, code 343 V2000+ */
UTF8STRING dimblk2; /*!< code 7, code 344 V2000+ */
double dimscale; /*!< code 40 */
double dimasz; /*!< code 41 */
double dimexo; /*!< code 42 */
double dimdli; /*!< code 43 */
double dimexe; /*!< code 44 */
double dimrnd; /*!< code 45 */
double dimdle; /*!< code 46 */
double dimtp; /*!< code 47 */
double dimtm; /*!< code 48 */
double dimtxt; /*!< code 140 */
double dimcen; /*!< code 141 */
double dimtsz; /*!< code 142 */
double dimaltf; /*!< code 143 */
double dimlfac; /*!< code 144 */
double dimtvp; /*!< code 145 */
double dimtfac; /*!< code 146 */
double dimgap; /*!< code 147 */
double dimaltrnd; /*!< code 148 V2000+ */
int dimtol; /*!< code 71 */
int dimlim; /*!< code 72 */
int dimtih; /*!< code 73 */
int dimtoh; /*!< code 74 */
int dimse1; /*!< code 75 */
int dimse2; /*!< code 76 */
int dimtad; /*!< code 77 */
int dimzin; /*!< code 78 */
int dimazin; /*!< code 79 V2000+ */
int dimalt; /*!< code 170 */
int dimaltd; /*!< code 171 */
int dimtofl; /*!< code 172 */
int dimsah; /*!< code 173 */
int dimtix; /*!< code 174 */
int dimsoxd; /*!< code 175 */
int dimclrd; /*!< code 176 */
int dimclre; /*!< code 177 */
int dimclrt; /*!< code 178 */
int dimadec; /*!< code 179 V2000+ */
int dimunit; /*!< code 270 R13+ (obsolete 2000+, use dimlunit & dimfrac) */
int dimdec; /*!< code 271 R13+ */
int dimtdec; /*!< code 272 R13+ */
int dimaltu; /*!< code 273 R13+ */
int dimalttd; /*!< code 274 R13+ */
int dimaunit; /*!< code 275 R13+ */
int dimfrac; /*!< code 276 V2000+ */
int dimlunit; /*!< code 277 V2000+ */
int dimdsep; /*!< code 278 V2000+ */
int dimtmove; /*!< code 279 V2000+ */
int dimjust; /*!< code 280 R13+ */
int dimsd1; /*!< code 281 R13+ */
int dimsd2; /*!< code 282 R13+ */
int dimtolj; /*!< code 283 R13+ */
int dimtzin; /*!< code 284 R13+ */
int dimaltz; /*!< code 285 R13+ */
int dimaltttz; /*!< code 286 R13+ */
int dimfit; /*!< code 287 R13+ (obsolete 2000+, use dimatfit & dimtmove)*/
int dimupt; /*!< code 288 R13+ */
int dimatfit; /*!< code 289 V2000+ */
UTF8STRING dimtxsty; /*!< code 340 R13+ */
UTF8STRING dimldrblk; /*!< code 341 V2000+ */
int dimlwd; /*!< code 371 V2000+ */
int dimlwe; /*!< code 372 V2000+ */
};
// ! Class to handle line type entries
/*!
* Class to handle line type symbol table entries
* @author Rallaz
*/
/*TODO: handle complex lineType*/
class DRW_LType : public DRW_TableEntry
{
public:
DRW_LType() { reset(); }
void reset()
{
tType = DRW::LTYPE;
desc = "";
size = 0;
length = 0.0;
pathIdx = 0;
/* color = 256; // default BYLAYER (256)
* plotF = true; // default TRUE (plot yes)
* lWeight = -1; // default BYLAYER (-1)*/
// align = 65; //always 65
}
void parseCode( int code, dxfReader* reader );
void update();
public:
UTF8STRING desc; /*!< descriptive string, code 3 */
// int align; /*!< align code, always 65 ('A') code 72 */
int size; /*!< element number, code 73 */
double length; /*!< total length of pattern, code 40 */
// int haveShape; /*!< complex linetype type, code 74 */
std::vector<double> path; /*!< trace, point or space length sequence, code 49 */
private:
int pathIdx;
};
// ! Class to handle layer entries
/*!
* Class to handle layer symbol table entries
* @author Rallaz
*/
class DRW_Layer : public DRW_TableEntry
{
public:
DRW_Layer() { reset(); }
void reset()
{
tType = DRW::LAYER;
lineType = "CONTINUOUS";
color = 7; // default BYLAYER (256)
plotF = true; // default TRUE (plot yes)
lWeight = DRW_LW_Conv::widthDefault; // default BYDEFAULT (dxf -3, dwg 31)
color24 = -1; // default -1 not set
}
void parseCode( int code, dxfReader* reader );
public:
UTF8STRING lineType; /*!< line type, code 6 */
int color; /*!< layer color, code 62 */
int color24; /*!< 24-bit color, code 420 */
bool plotF; /*!< Plot flag, code 290 */
enum DRW_LW_Conv::lineWidth lWeight; /*!< layer lineweight, code 370 */
string handlePlotS; /*!< Hard-pointer ID/handle of plotstyle, code 390 */
string handlePlotM; /*!< Hard-pointer ID/handle of materialstyle, code 347 */
};
// ! Class to handle text style entries
/*!
* Class to handle text style symbol table entries
* @author Rallaz
*/
class DRW_Textstyle : public DRW_TableEntry
{
public:
DRW_Textstyle() { reset(); }
void reset()
{
tType = DRW::STYLE;
height = oblique = 0.0;
width = lastHeight = 1.0;
font = "txt";
genFlag = 0; // 2= X mirror, 4= Y mirror
fontFamily = 0;
}
void parseCode( int code, dxfReader* reader );
public:
double height; /*!< Fixed text height (0 not set), code 40 */
double width; /*!< Width factor, code 41 */
double oblique; /*!< Oblique angle, code 50 */
int genFlag; /*!< Text generation flags, code 71 */
double lastHeight; /*!< Last height used, code 42 */
UTF8STRING font; /*!< primary font file name, code 3 */
UTF8STRING bigFont; /*!< bigfont file name or blank if none, code 4 */
int fontFamily; /*!< ttf font family, italic and bold flags, code 1071 */
};
// ! Class to handle vport entries
/*!
* Class to handle vport symbol table entries
* @author Rallaz
*/
class DRW_Vport : public DRW_TableEntry
{
public:
DRW_Vport() { reset(); }
void reset()
{
UpperRight.x = UpperRight.y = 1.0;
snapSpacing.x = snapSpacing.y = 10.0;
gridSpacing = snapSpacing;
center.x = 0.651828;
center.y = -0.16;
viewDir.z = 1;
height = 5.13732;
ratio = 2.4426877;
lensHeight = 50;
frontClip = backClip = snapAngle = twistAngle = 0.0;
viewMode = snap = grid = snapStyle = snapIsopair = 0;
fastZoom = 1;
circleZoom = 100;
ucsIcon = 3;
gridBehavior = 7;
}
void parseCode( int code, dxfReader* reader );
public:
DRW_Coord lowerLeft; /*!< Lower left corner, code 10 & 20 */
DRW_Coord UpperRight; /*!< Upper right corner, code 11 & 21 */
DRW_Coord center; /*!< center point in WCS, code 12 & 22 */
DRW_Coord snapBase; /*!< snap base point in DCS, code 13 & 23 */
DRW_Coord snapSpacing; /*!< snap Spacing, code 14 & 24 */
DRW_Coord gridSpacing; /*!< grid Spacing, code 15 & 25 */
DRW_Coord viewDir; /*!< view direction from target point, code 16, 26 & 36 */
DRW_Coord viewTarget; /*!< view target point, code 17, 27 & 37 */
double height; /*!< view height, code 40 */
double ratio; /*!< viewport aspect ratio, code 41 */
double lensHeight; /*!< lens height, code 42 */
double frontClip; /*!< front clipping plane, code 43 */
double backClip; /*!< back clipping plane, code 44 */
double snapAngle; /*!< snap rotation angle, code 50 */
double twistAngle; /*!< view twist angle, code 51 */
int viewMode; /*!< view mode, code 71 */
int circleZoom; /*!< circle zoom percent, code 72 */
int fastZoom; /*!< fast zoom setting, code 73 */
int ucsIcon; /*!< UCSICON setting, code 74 */
int snap; /*!< snap on/off, code 75 */
int grid; /*!< grid on/off, code 76 */
int snapStyle; /*!< snap style, code 77 */
int snapIsopair; /*!< snap isopair, code 78 */
int gridBehavior; /*!< grid behavior, code 60, undocummented */
/** code 60, bit coded possible value are
* bit 1 (1) show out of limits
* bit 2 (2) adaptive grid
* bit 3 (4) allow subdivision
* bit 4 (8) follow dinamic SCP
**/
};
// ! Class to handle imagedef entries
/*!
* Class to handle image definitions object entries
* @author Rallaz
*/
class DRW_ImageDef
{
public:
DRW_ImageDef()
{
version = 0;
}
void parseCode( int code, dxfReader* reader );
public:
string handle; /*!< entity identifier, code 5 */
UTF8STRING name; /*!< File name of image, code 1 */
int version; /*!< class version, code 90, 0=R14 version */
double u; /*!< image size in pixels U value, code 10 */
double v; /*!< image size in pixels V value, code 20 */
double up; /*!< default size of one pixel U value, code 11 */
double vp; /*!< default size of one pixel V value, code 12 really is 21*/
int loaded; /*!< image is loaded flag, code 280, 0=unloaded, 1=loaded */
int resolution; /*!< resolution units, code 281, 0=no, 2=centimeters, 5=inch */
std::map<string, string> reactors;
};
// ! Class to handle header entries
/*!
* Class to handle layer symbol table entries
* @author Rallaz
*/
class DRW_Header
{
public:
DRW_Header()
{
}
~DRW_Header()
{
vars.clear();
}
void parseCode( int code, dxfReader* reader );
void write( dxfWriter* writer, DRW::Version ver );
void addComment( string c );
string getComments() const { return comments; }
private:
bool getDouble( string key, double* varDouble );
bool getInt( string key, int* varInt );
bool getStr( string key, string* varStr );
bool getCoord( string key, DRW_Coord* varStr );
public:
std::map<string, DRW_Variant*> vars;
private:
string comments;
string name;
DRW_Variant* curr;
int version; // to use on read
};
namespace DRW {
// Extended color palette:
// The first entry is only for direct indexing starting with [1]
// Color 1 is red (1,0,0)
const unsigned char dxfColors[][3] =
{
{ 0, 0, 0 }, // unused
{ 255, 0, 0 }, // 1 red
{ 255, 255, 0 }, // 2 yellow
{ 0, 255, 0 }, // 3 green
{ 0, 255, 255 }, // 4 cyan
{ 0, 0, 255 }, // 5 blue
{ 255, 0, 255 }, // 6 magenta
{ 0, 0, 0 }, // 7 black or white
{ 128, 128, 128 }, // 8 50% gray
{ 192, 192, 192 }, // 9 75% gray
{ 255, 0, 0 }, // 10
{ 255, 127, 127 },
{ 204, 0, 0 },
{ 204, 102, 102 },
{ 153, 0, 0 },
{ 153, 76, 76 }, // 15
{ 127, 0, 0 },
{ 127, 63, 63 },
{ 76, 0, 0 },
{ 76, 38, 38 },
{ 255, 63, 0 }, // 20
{ 255, 159, 127 },
{ 204, 51, 0 },
{ 204, 127, 102 },
{ 153, 38, 0 },
{ 153, 95, 76 }, // 25
{ 127, 31, 0 },
{ 127, 79, 63 },
{ 76, 19, 0 },
{ 76, 47, 38 },
{ 255, 127, 0 }, // 30
{ 255, 191, 127 },
{ 204, 102, 0 },
{ 204, 153, 102 },
{ 153, 76, 0 },
{ 153, 114, 76 }, // 35
{ 127, 63, 0 },
{ 127, 95, 63 },
{ 76, 38, 0 },
{ 76, 57, 38 },
{ 255, 191, 0 }, // 40
{ 255, 223, 127 },
{ 204, 153, 0 },
{ 204, 178, 102 },
{ 153, 114, 0 },
{ 153, 133, 76 }, // 45
{ 127, 95, 0 },
{ 127, 111, 63 },
{ 76, 57, 0 },
{ 76, 66, 38 },
{ 255, 255, 0 }, // 50
{ 255, 255, 127 },
{ 204, 204, 0 },
{ 204, 204, 102 },
{ 153, 153, 0 },
{ 153, 153, 76 }, // 55
{ 127, 127, 0 },
{ 127, 127, 63 },
{ 76, 76, 0 },
{ 76, 76, 38 },
{ 191, 255, 0 }, // 60
{ 223, 255, 127 },
{ 153, 204, 0 },
{ 178, 204, 102 },
{ 114, 153, 0 },
{ 133, 153, 76 }, // 65
{ 95, 127, 0 },
{ 111, 127, 63 },
{ 57, 76, 0 },
{ 66, 76, 38 },
{ 127, 255, 0 }, // 70
{ 191, 255, 127 },
{ 102, 204, 0 },
{ 153, 204, 102 },
{ 76, 153, 0 },
{ 114, 153, 76 }, // 75
{ 63, 127, 0 },
{ 95, 127, 63 },
{ 38, 76, 0 },
{ 57, 76, 38 },
{ 63, 255, 0 }, // 80
{ 159, 255, 127 },
{ 51, 204, 0 },
{ 127, 204, 102 },
{ 38, 153, 0 },
{ 95, 153, 76 }, // 85
{ 31, 127, 0 },
{ 79, 127, 63 },
{ 19, 76, 0 },
{ 47, 76, 38 },
{ 0, 255, 0 }, // 90
{ 127, 255, 127 },
{ 0, 204, 0 },
{ 102, 204, 102 },
{ 0, 153, 0 },
{ 76, 153, 76 }, // 95
{ 0, 127, 0 },
{ 63, 127, 63 },
{ 0, 76, 0 },
{ 38, 76, 38 },
{ 0, 255, 63 }, // 100
{ 127, 255, 159 },
{ 0, 204, 51 },
{ 102, 204, 127 },
{ 0, 153, 38 },
{ 76, 153, 95 }, // 105
{ 0, 127, 31 },
{ 63, 127, 79 },
{ 0, 76, 19 },
{ 38, 76, 47 },
{ 0, 255, 127 }, // 110
{ 127, 255, 191 },
{ 0, 204, 102 },
{ 102, 204, 153 },
{ 0, 153, 76 },
{ 76, 153, 114 }, // 115
{ 0, 127, 63 },
{ 63, 127, 95 },
{ 0, 76, 38 },
{ 38, 76, 57 },
{ 0, 255, 191 }, // 120
{ 127, 255, 223 },
{ 0, 204, 153 },
{ 102, 204, 178 },
{ 0, 153, 114 },
{ 76, 153, 133 }, // 125
{ 0, 127, 95 },
{ 63, 127, 111 },
{ 0, 76, 57 },
{ 38, 76, 66 },
{ 0, 255, 255 }, // 130
{ 127, 255, 255 },
{ 0, 204, 204 },
{ 102, 204, 204 },
{ 0, 153, 153 },
{ 76, 153, 153 }, // 135
{ 0, 127, 127 },
{ 63, 127, 127 },
{ 0, 76, 76 },
{ 38, 76, 76 },
{ 0, 191, 255 }, // 140
{ 127, 223, 255 },
{ 0, 153, 204 },
{ 102, 178, 204 },
{ 0, 114, 153 },
{ 76, 133, 153 }, // 145
{ 0, 95, 127 },
{ 63, 111, 127 },
{ 0, 57, 76 },
{ 38, 66, 76 },
{ 0, 127, 255 }, // 150
{ 127, 191, 255 },
{ 0, 102, 204 },
{ 102, 153, 204 },
{ 0, 76, 153 },
{ 76, 114, 153 }, // 155
{ 0, 63, 127 },
{ 63, 95, 127 },
{ 0, 38, 76 },
{ 38, 57, 76 },
{ 0, 66, 255 }, // 160
{ 127, 159, 255 },
{ 0, 51, 204 },
{ 102, 127, 204 },
{ 0, 38, 153 },
{ 76, 95, 153 }, // 165
{ 0, 31, 127 },
{ 63, 79, 127 },
{ 0, 19, 76 },
{ 38, 47, 76 },
{ 0, 0, 255 }, // 170
{ 127, 127, 255 },
{ 0, 0, 204 },
{ 102, 102, 204 },
{ 0, 0, 153 },
{ 76, 76, 153 }, // 175
{ 0, 0, 127 },
{ 63, 63, 127 },
{ 0, 0, 76 },
{ 38, 38, 76 },
{ 63, 0, 255 }, // 180
{ 159, 127, 255 },
{ 50, 0, 204 },
{ 127, 102, 204 },
{ 38, 0, 153 },
{ 95, 76, 153 }, // 185
{ 31, 0, 127 },
{ 79, 63, 127 },
{ 19, 0, 76 },
{ 47, 38, 76 },
{ 127, 0, 255 }, // 190
{ 191, 127, 255 },
{ 102, 0, 204 },
{ 153, 102, 204 },
{ 76, 0, 153 },
{ 114, 76, 153 }, // 195
{ 63, 0, 127 },
{ 95, 63, 127 },
{ 38, 0, 76 },
{ 57, 38, 76 },
{ 191, 0, 255 }, // 200
{ 223, 127, 255 },
{ 153, 0, 204 },
{ 178, 102, 204 },
{ 114, 0, 153 },
{ 133, 76, 153 }, // 205
{ 95, 0, 127 },
{ 111, 63, 127 },
{ 57, 0, 76 },
{ 66, 38, 76 },
{ 255, 0, 255 }, // 210
{ 255, 127, 255 },
{ 204, 0, 204 },
{ 204, 102, 204 },
{ 153, 0, 153 },
{ 153, 76, 153 }, // 215
{ 127, 0, 127 },
{ 127, 63, 127 },
{ 76, 0, 76 },
{ 76, 38, 76 },
{ 255, 0, 191 }, // 220
{ 255, 127, 223 },
{ 204, 0, 153 },
{ 204, 102, 178 },
{ 153, 0, 114 },
{ 153, 76, 133 }, // 225
{ 127, 0, 95 },
{ 127, 63, 11 },
{ 76, 0, 57 },
{ 76, 38, 66 },
{ 255, 0, 127 }, // 230
{ 255, 127, 191 },
{ 204, 0, 102 },
{ 204, 102, 153 },
{ 153, 0, 76 },
{ 153, 76, 114 }, // 235
{ 127, 0, 63 },
{ 127, 63, 95 },
{ 76, 0, 38 },
{ 76, 38, 57 },
{ 255, 0, 63 }, // 240
{ 255, 127, 159 },
{ 204, 0, 51 },
{ 204, 102, 127 },
{ 153, 0, 38 },
{ 153, 76, 95 }, // 245
{ 127, 0, 31 },
{ 127, 63, 79 },
{ 76, 0, 19 },
{ 76, 38, 47 },
{ 51, 51, 51 }, // 250
{ 91, 91, 91 },
{ 132, 132, 132 },
{ 173, 173, 173 },
{ 214, 214, 214 },
{ 255, 255, 255 } // 255
};
}
#endif
// EOF
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#ifndef DRW_CPTABLES_H
#define DRW_CPTABLES_H
//first entry in all tables are 0x80
#define CPOFFSET 0x80
#define CPLENGHTCOMMON 128
//Table 874
static const int DRW_Table874[] = {
0x20AC, //1 #EURO SIGN
0x00 , //2 #UNDEFINED
0x00 , //3 #UNDEFINED
0x00 , //4 #UNDEFINED
0x00 , //5 #UNDEFINED
0x2026, //6 #HORIZONTAL ELLIPSIS
0x00 , //7 #UNDEFINED
0x00 , //8 #UNDEFINED
0x00 , //9 #UNDEFINED
0x00 , //10 #UNDEFINED
0x00 , //11 #UNDEFINED
0x00 , //12 #UNDEFINED
0x00 , //13 #UNDEFINED
0x00 , //14 #UNDEFINED
0x00 , //15 #UNDEFINED
0x00 , //16 #UNDEFINED
0x00 , //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x00 , //25 #UNDEFINED
0x00 , //26 #UNDEFINED
0x00 , //27 #UNDEFINED
0x00 , //28 #UNDEFINED
0x00 , //29 #UNDEFINED
0x00 , //30 #UNDEFINED
0x00 , //31 #UNDEFINED
0x00 , //32 #UNDEFINED
0x00A0, //33 #NO-BREAK SPACE
0x0E01, //34 #THAI CHARACTER KO KAI
0x0E02, //35 #THAI CHARACTER KHO KHAI
0x0E03, //36 #THAI CHARACTER KHO KHUAT
0x0E04, //37 #THAI CHARACTER KHO KHWAI
0x0E05, //38 #THAI CHARACTER KHO KHON
0x0E06, //39 #THAI CHARACTER KHO RAKHANG
0x0E07, //40 #THAI CHARACTER NGO NGU
0x0E08, //41 #THAI CHARACTER CHO CHAN
0x0E09, //42 #THAI CHARACTER CHO CHING
0x0E0A, //43 #THAI CHARACTER CHO CHANG
0x0E0B, //44 #THAI CHARACTER SO SO
0x0E0C, //45 #THAI CHARACTER CHO CHOE
0x0E0D, //46 #THAI CHARACTER YO YING
0x0E0E, //47 #THAI CHARACTER DO CHADA
0x0E0F, //48 #THAI CHARACTER TO PATAK
0x0E10, //49 #THAI CHARACTER THO THAN
0x0E11, //50 #THAI CHARACTER THO NANGMONTHO
0x0E12, //51 #THAI CHARACTER THO PHUTHAO
0x0E13, //52 #THAI CHARACTER NO NEN
0x0E14, //53 #THAI CHARACTER DO DEK
0x0E15, //54 #THAI CHARACTER TO TAO
0x0E16, //55 #THAI CHARACTER THO THUNG
0x0E17, //56 #THAI CHARACTER THO THAHAN
0x0E18, //57 #THAI CHARACTER THO THONG
0x0E19, //58 #THAI CHARACTER NO NU
0x0E1A, //59 #THAI CHARACTER BO BAIMAI
0x0E1B, //60 #THAI CHARACTER PO PLA
0x0E1C, //61 #THAI CHARACTER PHO PHUNG
0x0E1D, //62 #THAI CHARACTER FO FA
0x0E1E, //63 #THAI CHARACTER PHO PHAN
0x0E1F, //64 #THAI CHARACTER FO FAN
0x0E20, //65 #THAI CHARACTER PHO SAMPHAO
0x0E21, //66 #THAI CHARACTER MO MA
0x0E22, //67 #THAI CHARACTER YO YAK
0x0E23, //68 #THAI CHARACTER RO RUA
0x0E24, //69 #THAI CHARACTER RU
0x0E25, //70 #THAI CHARACTER LO LING
0x0E26, //71 #THAI CHARACTER LU
0x0E27, //72 #THAI CHARACTER WO WAEN
0x0E28, //73 #THAI CHARACTER SO SALA
0x0E29, //74 #THAI CHARACTER SO RUSI
0x0E2A, //75 #THAI CHARACTER SO SUA
0x0E2B, //76 #THAI CHARACTER HO HIP
0x0E2C, //77 #THAI CHARACTER LO CHULA
0x0E2D, //78 #THAI CHARACTER O ANG
0x0E2E, //79 #THAI CHARACTER HO NOKHUK
0x0E2F, //80 #THAI CHARACTER PAIYANNOI
0x0E30, //81 #THAI CHARACTER SARA A
0x0E31, //82 #THAI CHARACTER MAI HAN-AKAT
0x0E32, //83 #THAI CHARACTER SARA AA
0x0E33, //84 #THAI CHARACTER SARA AM
0x0E34, //85 #THAI CHARACTER SARA I
0x0E35, //86 #THAI CHARACTER SARA II
0x0E36, //87 #THAI CHARACTER SARA UE
0x0E37, //88 #THAI CHARACTER SARA UEE
0x0E38, //89 #THAI CHARACTER SARA U
0x0E39, //90 #THAI CHARACTER SARA UU
0x0E3A, //91 #THAI CHARACTER PHINTHU
0x00 , //92 #UNDEFINED
0x00 , //93 #UNDEFINED
0x00 , //94 #UNDEFINED
0x00 , //95 #UNDEFINED
0x0E3F, //96 #THAI CURRENCY SYMBOL BAHT
0x0E40, //97 #THAI CHARACTER SARA E
0x0E41, //98 #THAI CHARACTER SARA AE
0x0E42, //99 #THAI CHARACTER SARA O
0x0E43, //100 #THAI CHARACTER SARA AI MAIMUAN
0x0E44, //101 #THAI CHARACTER SARA AI MAIMALAI
0x0E45, //102 #THAI CHARACTER LAKKHANGYAO
0x0E46, //103 #THAI CHARACTER MAIYAMOK
0x0E47, //104 #THAI CHARACTER MAITAIKHU
0x0E48, //105 #THAI CHARACTER MAI EK
0x0E49, //106 #THAI CHARACTER MAI THO
0x0E4A, //107 #THAI CHARACTER MAI TRI
0x0E4B, //108 #THAI CHARACTER MAI CHATTAWA
0x0E4C, //109 #THAI CHARACTER THANTHAKHAT
0x0E4D, //110 #THAI CHARACTER NIKHAHIT
0x0E4E, //111 #THAI CHARACTER YAMAKKAN
0x0E4F, //112 #THAI CHARACTER FONGMAN
0x0E50, //113 #THAI DIGIT ZERO
0x0E51, //114 #THAI DIGIT ONE
0x0E52, //115 #THAI DIGIT TWO
0x0E53, //116 #THAI DIGIT THREE
0x0E54, //117 #THAI DIGIT FOUR
0x0E55, //118 #THAI DIGIT FIVE
0x0E56, //119 #THAI DIGIT SIX
0x0E57, //120 #THAI DIGIT SEVEN
0x0E58, //121 #THAI DIGIT EIGHT
0x0E59, //122 #THAI DIGIT NINE
0x0E5A, //123 #THAI CHARACTER ANGKHANKHU
0x0E5B, //124 #THAI CHARACTER KHOMUT
0x00 , //125 #UNDEFINED
0x00 , //126 #UNDEFINED
0x00 , //127 #UNDEFINED
0x00 //128 #UNDEFINED
};
//Table 1250
static const int DRW_Table1250[] = {
0x20AC, //1 #EURO SIGN
0x00, //2 #UNDEFINED
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x00, //4 #UNDEFINED
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x00, //9 #UNDEFINED
0x2030, //10 #PER MILLE SIGN
0x0160, //11 #LATIN CAPITAL LETTER S WITH CARON
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x015A, //13 #LATIN CAPITAL LETTER S WITH ACUTE
0x0164, //14 #LATIN CAPITAL LETTER T WITH CARON
0x017D, //15 #LATIN CAPITAL LETTER Z WITH CARON
0x0179, //16 #LATIN CAPITAL LETTER Z WITH ACUTE
0x00, //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x00, //25 #UNDEFINED
0x2122, //26 #TRADE MARK SIGN
0x0161, //27 #LATIN SMALL LETTER S WITH CARON
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x015B, //29 #LATIN SMALL LETTER S WITH ACUTE
0x0165, //30 #LATIN SMALL LETTER T WITH CARON
0x017E, //31 #LATIN SMALL LETTER Z WITH CARON
0x017A, //32 #LATIN SMALL LETTER Z WITH ACUTE
0x00A0, //33 #NO-BREAK SPACE
0x02C7, //34 #CARON
0x02D8, //35 #BREVE
0x0141, //36 #LATIN CAPITAL LETTER L WITH STROKE
0x00A4, //37 #CURRENCY SIGN
0x0104, //38 #LATIN CAPITAL LETTER A WITH OGONEK
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00A8, //41 #DIAERESIS
0x00A9, //42 #COPYRIGHT SIGN
0x015E, //43 #LATIN CAPITAL LETTER S WITH CEDILLA
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x017B, //48 #LATIN CAPITAL LETTER Z WITH DOT ABOVE
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x02DB, //51 #OGONEK
0x0142, //52 #LATIN SMALL LETTER L WITH STROKE
0x00B4, //53 #ACUTE ACCENT
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x00B8, //57 #CEDILLA
0x0105, //58 #LATIN SMALL LETTER A WITH OGONEK
0x015F, //59 #LATIN SMALL LETTER S WITH CEDILLA
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x013D, //61 #LATIN CAPITAL LETTER L WITH CARON
0x02DD, //62 #DOUBLE ACUTE ACCENT
0x013E, //63 #LATIN SMALL LETTER L WITH CARON
0x017C, //64 #LATIN SMALL LETTER Z WITH DOT ABOVE
0x0154, //65 #LATIN CAPITAL LETTER R WITH ACUTE
0x00C1, //66 #LATIN CAPITAL LETTER A WITH ACUTE
0x00C2, //67 #LATIN CAPITAL LETTER A WITH CIRCUMFLEX
0x0102, //68 #LATIN CAPITAL LETTER A WITH BREVE
0x00C4, //69 #LATIN CAPITAL LETTER A WITH DIAERESIS
0x0139, //70 #LATIN CAPITAL LETTER L WITH ACUTE
0x0106, //71 #LATIN CAPITAL LETTER C WITH ACUTE
0x00C7, //72 #LATIN CAPITAL LETTER C WITH CEDILLA
0x010C, //73 #LATIN CAPITAL LETTER C WITH CARON
0x00C9, //74 #LATIN CAPITAL LETTER E WITH ACUTE
0x0118, //75 #LATIN CAPITAL LETTER E WITH OGONEK
0x00CB, //76 #LATIN CAPITAL LETTER E WITH DIAERESIS
0x011A, //77 #LATIN CAPITAL LETTER E WITH CARON
0x00CD, //78 #LATIN CAPITAL LETTER I WITH ACUTE
0x00CE, //79 #LATIN CAPITAL LETTER I WITH CIRCUMFLEX
0x010E, //80 #LATIN CAPITAL LETTER D WITH CARON
0x0110, //81 #LATIN CAPITAL LETTER D WITH STROKE
0x0143, //82 #LATIN CAPITAL LETTER N WITH ACUTE
0x0147, //83 #LATIN CAPITAL LETTER N WITH CARON
0x00D3, //84 #LATIN CAPITAL LETTER O WITH ACUTE
0x00D4, //85 #LATIN CAPITAL LETTER O WITH CIRCUMFLEX
0x0150, //86 #LATIN CAPITAL LETTER O WITH DOUBLE ACUTE
0x00D6, //87 #LATIN CAPITAL LETTER O WITH DIAERESIS
0x00D7, //88 #MULTIPLICATION SIGN
0x0158, //89 #LATIN CAPITAL LETTER R WITH CARON
0x016E, //90 #LATIN CAPITAL LETTER U WITH RING ABOVE
0x00DA, //91 #LATIN CAPITAL LETTER U WITH ACUTE
0x0170, //92 #LATIN CAPITAL LETTER U WITH DOUBLE ACUTE
0x00DC, //93 #LATIN CAPITAL LETTER U WITH DIAERESIS
0x00DD, //94 #LATIN CAPITAL LETTER Y WITH ACUTE
0x0162, //95 #LATIN CAPITAL LETTER T WITH CEDILLA
0x00DF, //96 #LATIN SMALL LETTER SHARP S
0x0155, //97 #LATIN SMALL LETTER R WITH ACUTE
0x00E1, //98 #LATIN SMALL LETTER A WITH ACUTE
0x00E2, //99 #LATIN SMALL LETTER A WITH CIRCUMFLEX
0x0103, //100 #LATIN SMALL LETTER A WITH BREVE
0x00E4, //101 #LATIN SMALL LETTER A WITH DIAERESIS
0x013A, //102 #LATIN SMALL LETTER L WITH ACUTE
0x0107, //103 #LATIN SMALL LETTER C WITH ACUTE
0x00E7, //104 #LATIN SMALL LETTER C WITH CEDILLA
0x010D, //105 #LATIN SMALL LETTER C WITH CARON
0x00E9, //106 #LATIN SMALL LETTER E WITH ACUTE
0x0119, //107 #LATIN SMALL LETTER E WITH OGONEK
0x00EB, //108 #LATIN SMALL LETTER E WITH DIAERESIS
0x011B, //109 #LATIN SMALL LETTER E WITH CARON
0x00ED, //110 #LATIN SMALL LETTER I WITH ACUTE
0x00EE, //111 #LATIN SMALL LETTER I WITH CIRCUMFLEX
0x010F, //112 #LATIN SMALL LETTER D WITH CARON
0x0111, //113 #LATIN SMALL LETTER D WITH STROKE
0x0144, //114 #LATIN SMALL LETTER N WITH ACUTE
0x0148, //115 #LATIN SMALL LETTER N WITH CARON
0x00F3, //116 #LATIN SMALL LETTER O WITH ACUTE
0x00F4, //117 #LATIN SMALL LETTER O WITH CIRCUMFLEX
0x0151, //118 #LATIN SMALL LETTER O WITH DOUBLE ACUTE
0x00F6, //119 #LATIN SMALL LETTER O WITH DIAERESIS
0x00F7, //120 #DIVISION SIGN
0x0159, //121 #LATIN SMALL LETTER R WITH CARON
0x016F, //122 #LATIN SMALL LETTER U WITH RING ABOVE
0x00FA, //123 #LATIN SMALL LETTER U WITH ACUTE
0x0171, //124 #LATIN SMALL LETTER U WITH DOUBLE ACUTE
0x00FC, //125 #LATIN SMALL LETTER U WITH DIAERESIS
0x00FD, //126 #LATIN SMALL LETTER Y WITH ACUTE
0x0163, //127 #LATIN SMALL LETTER T WITH CEDILLA
0x02D9 //128 #DOT ABOVE
};
//Table 1251
static const int DRW_Table1251[] = {
0x0402, //1 #CYRILLIC CAPITAL LETTER DJE
0x0403, //2 #CYRILLIC CAPITAL LETTER GJE
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x0453, //4 #CYRILLIC SMALL LETTER GJE
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x20AC, //9 #EURO SIGN
0x2030, //10 #PER MILLE SIGN
0x0409, //11 #CYRILLIC CAPITAL LETTER LJE
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x040A, //13 #CYRILLIC CAPITAL LETTER NJE
0x040C, //14 #CYRILLIC CAPITAL LETTER KJE
0x040B, //15 #CYRILLIC CAPITAL LETTER TSHE
0x040F, //16 #CYRILLIC CAPITAL LETTER DZHE
0x0452, //17 #CYRILLIC SMALL LETTER DJE
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x00, //25 #UNDEFINED
0x2122, //26 #TRADE MARK SIGN
0x0459, //27 #CYRILLIC SMALL LETTER LJE
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x045A, //29 #CYRILLIC SMALL LETTER NJE
0x045C, //30 #CYRILLIC SMALL LETTER KJE
0x045B, //31 #CYRILLIC SMALL LETTER TSHE
0x045F, //32 #CYRILLIC SMALL LETTER DZHE
0x00A0, //33 #NO-BREAK SPACE
0x040E, //34 #CYRILLIC CAPITAL LETTER SHORT U
0x045E, //35 #CYRILLIC SMALL LETTER SHORT U
0x0408, //36 #CYRILLIC CAPITAL LETTER JE
0x00A4, //37 #CURRENCY SIGN
0x0490, //38 #CYRILLIC CAPITAL LETTER GHE WITH UPTURN
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x0401, //41 #CYRILLIC CAPITAL LETTER IO
0x00A9, //42 #COPYRIGHT SIGN
0x0404, //43 #CYRILLIC CAPITAL LETTER UKRAINIAN IE
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x0407, //48 #CYRILLIC CAPITAL LETTER YI
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x0406, //51 #CYRILLIC CAPITAL LETTER BYELORUSSIAN-UKRAINIAN I
0x0456, //52 #CYRILLIC SMALL LETTER BYELORUSSIAN-UKRAINIAN I
0x0491, //53 #CYRILLIC SMALL LETTER GHE WITH UPTURN
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x0451, //57 #CYRILLIC SMALL LETTER IO
0x2116, //58 #NUMERO SIGN
0x0454, //59 #CYRILLIC SMALL LETTER UKRAINIAN IE
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x0458, //61 #CYRILLIC SMALL LETTER JE
0x0405, //62 #CYRILLIC CAPITAL LETTER DZE
0x0455, //63 #CYRILLIC SMALL LETTER DZE
0x0457, //64 #CYRILLIC SMALL LETTER YI
0x0410, //65 #CYRILLIC CAPITAL LETTER A
0x0411, //66 #CYRILLIC CAPITAL LETTER BE
0x0412, //67 #CYRILLIC CAPITAL LETTER VE
0x0413, //68 #CYRILLIC CAPITAL LETTER GHE
0x0414, //69 #CYRILLIC CAPITAL LETTER DE
0x0415, //70 #CYRILLIC CAPITAL LETTER IE
0x0416, //71 #CYRILLIC CAPITAL LETTER ZHE
0x0417, //72 #CYRILLIC CAPITAL LETTER ZE
0x0418, //73 #CYRILLIC CAPITAL LETTER I
0x0419, //74 #CYRILLIC CAPITAL LETTER SHORT I
0x041A, //75 #CYRILLIC CAPITAL LETTER KA
0x041B, //76 #CYRILLIC CAPITAL LETTER EL
0x041C, //77 #CYRILLIC CAPITAL LETTER EM
0x041D, //78 #CYRILLIC CAPITAL LETTER EN
0x041E, //79 #CYRILLIC CAPITAL LETTER O
0x041F, //80 #CYRILLIC CAPITAL LETTER PE
0x0420, //81 #CYRILLIC CAPITAL LETTER ER
0x0421, //82 #CYRILLIC CAPITAL LETTER ES
0x0422, //83 #CYRILLIC CAPITAL LETTER TE
0x0423, //84 #CYRILLIC CAPITAL LETTER U
0x0424, //85 #CYRILLIC CAPITAL LETTER EF
0x0425, //86 #CYRILLIC CAPITAL LETTER HA
0x0426, //87 #CYRILLIC CAPITAL LETTER TSE
0x0427, //88 #CYRILLIC CAPITAL LETTER CHE
0x0428, //89 #CYRILLIC CAPITAL LETTER SHA
0x0429, //90 #CYRILLIC CAPITAL LETTER SHCHA
0x042A, //91 #CYRILLIC CAPITAL LETTER HARD SIGN
0x042B, //92 #CYRILLIC CAPITAL LETTER YERU
0x042C, //93 #CYRILLIC CAPITAL LETTER SOFT SIGN
0x042D, //94 #CYRILLIC CAPITAL LETTER E
0x042E, //95 #CYRILLIC CAPITAL LETTER YU
0x042F, //96 #CYRILLIC CAPITAL LETTER YA
0x0430, //97 #CYRILLIC SMALL LETTER A
0x0431, //98 #CYRILLIC SMALL LETTER BE
0x0432, //99 #CYRILLIC SMALL LETTER VE
0x0433, //100 #CYRILLIC SMALL LETTER GHE
0x0434, //101 #CYRILLIC SMALL LETTER DE
0x0435, //102 #CYRILLIC SMALL LETTER IE
0x0436, //103 #CYRILLIC SMALL LETTER ZHE
0x0437, //104 #CYRILLIC SMALL LETTER ZE
0x0438, //105 #CYRILLIC SMALL LETTER I
0x0439, //106 #CYRILLIC SMALL LETTER SHORT I
0x043A, //107 #CYRILLIC SMALL LETTER KA
0x043B, //108 #CYRILLIC SMALL LETTER EL
0x043C, //109 #CYRILLIC SMALL LETTER EM
0x043D, //110 #CYRILLIC SMALL LETTER EN
0x043E, //111 #CYRILLIC SMALL LETTER O
0x043F, //112 #CYRILLIC SMALL LETTER PE
0x0440, //113 #CYRILLIC SMALL LETTER ER
0x0441, //114 #CYRILLIC SMALL LETTER ES
0x0442, //115 #CYRILLIC SMALL LETTER TE
0x0443, //116 #CYRILLIC SMALL LETTER U
0x0444, //117 #CYRILLIC SMALL LETTER EF
0x0445, //118 #CYRILLIC SMALL LETTER HA
0x0446, //119 #CYRILLIC SMALL LETTER TSE
0x0447, //120 #CYRILLIC SMALL LETTER CHE
0x0448, //121 #CYRILLIC SMALL LETTER SHA
0x0449, //122 #CYRILLIC SMALL LETTER SHCHA
0x044A, //123 #CYRILLIC SMALL LETTER HARD SIGN
0x044B, //124 #CYRILLIC SMALL LETTER YERU
0x044C, //125 #CYRILLIC SMALL LETTER SOFT SIGN
0x044D, //126 #CYRILLIC SMALL LETTER E
0x044E, //127 #CYRILLIC SMALL LETTER YU
0x044F //128 #CYRILLIC SMALL LETTER YA
};
//Table 1252
static const int DRW_Table1252[] = {
0x20AC, //1 #EURO SIGN
0x00, //2 #UNDEFINED
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x0192, //4 #LATIN SMALL LETTER F WITH HOOK
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x02C6, //9 #MODIFIER LETTER CIRCUMFLEX ACCENT
0x2030, //10 #PER MILLE SIGN
0x0160, //11 #LATIN CAPITAL LETTER S WITH CARON
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x0152, //13 #LATIN CAPITAL LIGATURE OE
0x00, //14 #UNDEFINED
0x017D, //15 #LATIN CAPITAL LETTER Z WITH CARON
0x00, //16 #UNDEFINED
0x00, //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x02DC, //25 #SMALL TILDE
0x2122, //26 #TRADE MARK SIGN
0x0161, //27 #LATIN SMALL LETTER S WITH CARON
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x0153, //29 #LATIN SMALL LIGATURE OE
0x00, //30 #UNDEFINED
0x017E, //31 #LATIN SMALL LETTER Z WITH CARON
0x0178, //32 #LATIN CAPITAL LETTER Y WITH DIAERESIS
0x00A0, //33 #NO-BREAK SPACE
0x00A1, //34 #INVERTED EXCLAMATION MARK
0x00A2, //35 #CENT SIGN
0x00A3, //36 #POUND SIGN
0x00A4, //37 #CURRENCY SIGN
0x00A5, //38 #YEN SIGN
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00A8, //41 #DIAERESIS
0x00A9, //42 #COPYRIGHT SIGN
0x00AA, //43 #FEMININE ORDINAL INDICATOR
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x00AF, //48 #MACRON
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x00B2, //51 #SUPERSCRIPT TWO
0x00B3, //52 #SUPERSCRIPT THREE
0x00B4, //53 #ACUTE ACCENT
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x00B8, //57 #CEDILLA
0x00B9, //58 #SUPERSCRIPT ONE
0x00BA, //59 #MASCULINE ORDINAL INDICATOR
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00BC, //61 #VULGAR FRACTION ONE QUARTER
0x00BD, //62 #VULGAR FRACTION ONE HALF
0x00BE, //63 #VULGAR FRACTION THREE QUARTERS
0x00BF, //64 #INVERTED QUESTION MARK
0x00C0, //65 #LATIN CAPITAL LETTER A WITH GRAVE
0x00C1, //66 #LATIN CAPITAL LETTER A WITH ACUTE
0x00C2, //67 #LATIN CAPITAL LETTER A WITH CIRCUMFLEX
0x00C3, //68 #LATIN CAPITAL LETTER A WITH TILDE
0x00C4, //69 #LATIN CAPITAL LETTER A WITH DIAERESIS
0x00C5, //70 #LATIN CAPITAL LETTER A WITH RING ABOVE
0x00C6, //71 #LATIN CAPITAL LETTER AE
0x00C7, //72 #LATIN CAPITAL LETTER C WITH CEDILLA
0x00C8, //73 #LATIN CAPITAL LETTER E WITH GRAVE
0x00C9, //74 #LATIN CAPITAL LETTER E WITH ACUTE
0x00CA, //75 #LATIN CAPITAL LETTER E WITH CIRCUMFLEX
0x00CB, //76 #LATIN CAPITAL LETTER E WITH DIAERESIS
0x00CC, //77 #LATIN CAPITAL LETTER I WITH GRAVE
0x00CD, //78 #LATIN CAPITAL LETTER I WITH ACUTE
0x00CE, //79 #LATIN CAPITAL LETTER I WITH CIRCUMFLEX
0x00CF, //80 #LATIN CAPITAL LETTER I WITH DIAERESIS
0x00D0, //81 #LATIN CAPITAL LETTER ETH
0x00D1, //82 #LATIN CAPITAL LETTER N WITH TILDE
0x00D2, //83 #LATIN CAPITAL LETTER O WITH GRAVE
0x00D3, //84 #LATIN CAPITAL LETTER O WITH ACUTE
0x00D4, //85 #LATIN CAPITAL LETTER O WITH CIRCUMFLEX
0x00D5, //86 #LATIN CAPITAL LETTER O WITH TILDE
0x00D6, //87 #LATIN CAPITAL LETTER O WITH DIAERESIS
0x00D7, //88 #MULTIPLICATION SIGN
0x00D8, //89 #LATIN CAPITAL LETTER O WITH STROKE
0x00D9, //90 #LATIN CAPITAL LETTER U WITH GRAVE
0x00DA, //91 #LATIN CAPITAL LETTER U WITH ACUTE
0x00DB, //92 #LATIN CAPITAL LETTER U WITH CIRCUMFLEX
0x00DC, //93 #LATIN CAPITAL LETTER U WITH DIAERESIS
0x00DD, //94 #LATIN CAPITAL LETTER Y WITH ACUTE
0x00DE, //95 #LATIN CAPITAL LETTER THORN
0x00DF, //96 #LATIN SMALL LETTER SHARP S
0x00E0, //97 #LATIN SMALL LETTER A WITH GRAVE
0x00E1, //98 #LATIN SMALL LETTER A WITH ACUTE
0x00E2, //99 #LATIN SMALL LETTER A WITH CIRCUMFLEX
0x00E3, //100 #LATIN SMALL LETTER A WITH TILDE
0x00E4, //101 #LATIN SMALL LETTER A WITH DIAERESIS
0x00E5, //102 #LATIN SMALL LETTER A WITH RING ABOVE
0x00E6, //103 #LATIN SMALL LETTER AE
0x00E7, //104 #LATIN SMALL LETTER C WITH CEDILLA
0x00E8, //105 #LATIN SMALL LETTER E WITH GRAVE
0x00E9, //106 #LATIN SMALL LETTER E WITH ACUTE
0x00EA, //107 #LATIN SMALL LETTER E WITH CIRCUMFLEX
0x00EB, //108 #LATIN SMALL LETTER E WITH DIAERESIS
0x00EC, //109 #LATIN SMALL LETTER I WITH GRAVE
0x00ED, //110 #LATIN SMALL LETTER I WITH ACUTE
0x00EE, //111 #LATIN SMALL LETTER I WITH CIRCUMFLEX
0x00EF, //112 #LATIN SMALL LETTER I WITH DIAERESIS
0x00F0, //113 #LATIN SMALL LETTER ETH
0x00F1, //114 #LATIN SMALL LETTER N WITH TILDE
0x00F2, //115 #LATIN SMALL LETTER O WITH GRAVE
0x00F3, //116 #LATIN SMALL LETTER O WITH ACUTE
0x00F4, //117 #LATIN SMALL LETTER O WITH CIRCUMFLEX
0x00F5, //118 #LATIN SMALL LETTER O WITH TILDE
0x00F6, //119 #LATIN SMALL LETTER O WITH DIAERESIS
0x00F7, //120 #DIVISION SIGN
0x00F8, //121 #LATIN SMALL LETTER O WITH STROKE
0x00F9, //122 #LATIN SMALL LETTER U WITH GRAVE
0x00FA, //123 #LATIN SMALL LETTER U WITH ACUTE
0x00FB, //124 #LATIN SMALL LETTER U WITH CIRCUMFLEX
0x00FC, //125 #LATIN SMALL LETTER U WITH DIAERESIS
0x00FD, //126 #LATIN SMALL LETTER Y WITH ACUTE
0x00FE, //127 #LATIN SMALL LETTER THORN
0x00FF //128 #LATIN SMALL LETTER Y WITH DIAERESIS
};
//Table 1253
static const int DRW_Table1253[] = {
0x20AC, //1 #EURO SIGN
0x00 , //2 #UNDEFINED
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x0192, //4 #LATIN SMALL LETTER F WITH HOOK
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x00 , //9 #UNDEFINED
0x2030, //10 #PER MILLE SIGN
0x00 , //11 #UNDEFINED
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x00 , //13 #UNDEFINED
0x00 , //14 #UNDEFINED
0x00 , //15 #UNDEFINED
0x00 , //16 #UNDEFINED
0x00 , //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x00 , //25 #UNDEFINED
0x2122, //26 #TRADE MARK SIGN
0x00 , //27 #UNDEFINED
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x00 , //29 #UNDEFINED
0x00 , //30 #UNDEFINED
0x00 , //31 #UNDEFINED
0x00 , //32 #UNDEFINED
0x00A0, //33 #NO-BREAK SPACE
0x0385, //34 #GREEK DIALYTIKA TONOS
0x0386, //35 #GREEK CAPITAL LETTER ALPHA WITH TONOS
0x00A3, //36 #POUND SIGN
0x00A4, //37 #CURRENCY SIGN
0x00A5, //38 #YEN SIGN
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00A8, //41 #DIAERESIS
0x00A9, //42 #COPYRIGHT SIGN
0x00 , //43 #UNDEFINED
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x2015, //48 #HORIZONTAL BAR
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x00B2, //51 #SUPERSCRIPT TWO
0x00B3, //52 #SUPERSCRIPT THREE
0x0384, //53 #GREEK TONOS
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x0388, //57 #GREEK CAPITAL LETTER EPSILON WITH TONOS
0x0389, //58 #GREEK CAPITAL LETTER ETA WITH TONOS
0x038A, //59 #GREEK CAPITAL LETTER IOTA WITH TONOS
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x038C, //61 #GREEK CAPITAL LETTER OMICRON WITH TONOS
0x00BD, //62 #VULGAR FRACTION ONE HALF
0x038E, //63 #GREEK CAPITAL LETTER UPSILON WITH TONOS
0x038F, //64 #GREEK CAPITAL LETTER OMEGA WITH TONOS
0x0390, //65 #GREEK SMALL LETTER IOTA WITH DIALYTIKA AND TONOS
0x0391, //66 #GREEK CAPITAL LETTER ALPHA
0x0392, //67 #GREEK CAPITAL LETTER BETA
0x0393, //68 #GREEK CAPITAL LETTER GAMMA
0x0394, //69 #GREEK CAPITAL LETTER DELTA
0x0395, //70 #GREEK CAPITAL LETTER EPSILON
0x0396, //71 #GREEK CAPITAL LETTER ZETA
0x0397, //72 #GREEK CAPITAL LETTER ETA
0x0398, //73 #GREEK CAPITAL LETTER THETA
0x0399, //74 #GREEK CAPITAL LETTER IOTA
0x039A, //75 #GREEK CAPITAL LETTER KAPPA
0x039B, //76 #GREEK CAPITAL LETTER LAMDA
0x039C, //77 #GREEK CAPITAL LETTER MU
0x039D, //78 #GREEK CAPITAL LETTER NU
0x039E, //79 #GREEK CAPITAL LETTER XI
0x039F, //80 #GREEK CAPITAL LETTER OMICRON
0x03A0, //81 #GREEK CAPITAL LETTER PI
0x03A1, //82 #GREEK CAPITAL LETTER RHO
0x00 , //83 #UNDEFINED
0x03A3, //84 #GREEK CAPITAL LETTER SIGMA
0x03A4, //85 #GREEK CAPITAL LETTER TAU
0x03A5, //86 #GREEK CAPITAL LETTER UPSILON
0x03A6, //87 #GREEK CAPITAL LETTER PHI
0x03A7, //88 #GREEK CAPITAL LETTER CHI
0x03A8, //89 #GREEK CAPITAL LETTER PSI
0x03A9, //90 #GREEK CAPITAL LETTER OMEGA
0x03AA, //91 #GREEK CAPITAL LETTER IOTA WITH DIALYTIKA
0x03AB, //92 #GREEK CAPITAL LETTER UPSILON WITH DIALYTIKA
0x03AC, //93 #GREEK SMALL LETTER ALPHA WITH TONOS
0x03AD, //94 #GREEK SMALL LETTER EPSILON WITH TONOS
0x03AE, //95 #GREEK SMALL LETTER ETA WITH TONOS
0x03AF, //96 #GREEK SMALL LETTER IOTA WITH TONOS
0x03B0, //97 #GREEK SMALL LETTER UPSILON WITH DIALYTIKA AND TONOS
0x03B1, //98 #GREEK SMALL LETTER ALPHA
0x03B2, //99 #GREEK SMALL LETTER BETA
0x03B3, //100 #GREEK SMALL LETTER GAMMA
0x03B4, //101 #GREEK SMALL LETTER DELTA
0x03B5, //102 #GREEK SMALL LETTER EPSILON
0x03B6, //103 #GREEK SMALL LETTER ZETA
0x03B7, //104 #GREEK SMALL LETTER ETA
0x03B8, //105 #GREEK SMALL LETTER THETA
0x03B9, //106 #GREEK SMALL LETTER IOTA
0x03BA, //107 #GREEK SMALL LETTER KAPPA
0x03BB, //108 #GREEK SMALL LETTER LAMDA
0x03BC, //109 #GREEK SMALL LETTER MU
0x03BD, //110 #GREEK SMALL LETTER NU
0x03BE, //111 #GREEK SMALL LETTER XI
0x03BF, //112 #GREEK SMALL LETTER OMICRON
0x03C0, //113 #GREEK SMALL LETTER PI
0x03C1, //114 #GREEK SMALL LETTER RHO
0x03C2, //115 #GREEK SMALL LETTER FINAL SIGMA
0x03C3, //116 #GREEK SMALL LETTER SIGMA
0x03C4, //117 #GREEK SMALL LETTER TAU
0x03C5, //118 #GREEK SMALL LETTER UPSILON
0x03C6, //119 #GREEK SMALL LETTER PHI
0x03C7, //120 #GREEK SMALL LETTER CHI
0x03C8, //121 #GREEK SMALL LETTER PSI
0x03C9, //122 #GREEK SMALL LETTER OMEGA
0x03CA, //123 #GREEK SMALL LETTER IOTA WITH DIALYTIKA
0x03CB, //124 #GREEK SMALL LETTER UPSILON WITH DIALYTIKA
0x03CC, //125 #GREEK SMALL LETTER OMICRON WITH TONOS
0x03CD, //126 #GREEK SMALL LETTER UPSILON WITH TONOS
0x03CE, //127 #GREEK SMALL LETTER OMEGA WITH TONOS
0x00 //128 #UNDEFINED
};
//Table 1254
static const int DRW_Table1254[] = {
0x20AC, //1 #EURO SIGN
0x00 , //2 #UNDEFINED
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x0192, //4 #LATIN SMALL LETTER F WITH HOOK
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x02C6, //9 #MODIFIER LETTER CIRCUMFLEX ACCENT
0x2030, //10 #PER MILLE SIGN
0x0160, //11 #LATIN CAPITAL LETTER S WITH CARON
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x0152, //13 #LATIN CAPITAL LIGATURE OE
0x00 , //14 #UNDEFINED
0x00 , //15 #UNDEFINED
0x00 , //16 #UNDEFINED
0x00 , //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x02DC, //25 #SMALL TILDE
0x2122, //26 #TRADE MARK SIGN
0x0161, //27 #LATIN SMALL LETTER S WITH CARON
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x0153, //29 #LATIN SMALL LIGATURE OE
0x00 , //30 #UNDEFINED
0x00 , //31 #UNDEFINED
0x0178, //32 #LATIN CAPITAL LETTER Y WITH DIAERESIS
0x00A0, //33 #NO-BREAK SPACE
0x00A1, //34 #INVERTED EXCLAMATION MARK
0x00A2, //35 #CENT SIGN
0x00A3, //36 #POUND SIGN
0x00A4, //37 #CURRENCY SIGN
0x00A5, //38 #YEN SIGN
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00A8, //41 #DIAERESIS
0x00A9, //42 #COPYRIGHT SIGN
0x00AA, //43 #FEMININE ORDINAL INDICATOR
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x00AF, //48 #MACRON
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x00B2, //51 #SUPERSCRIPT TWO
0x00B3, //52 #SUPERSCRIPT THREE
0x00B4, //53 #ACUTE ACCENT
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x00B8, //57 #CEDILLA
0x00B9, //58 #SUPERSCRIPT ONE
0x00BA, //59 #MASCULINE ORDINAL INDICATOR
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00BC, //61 #VULGAR FRACTION ONE QUARTER
0x00BD, //62 #VULGAR FRACTION ONE HALF
0x00BE, //63 #VULGAR FRACTION THREE QUARTERS
0x00BF, //64 #INVERTED QUESTION MARK
0x00C0, //65 #LATIN CAPITAL LETTER A WITH GRAVE
0x00C1, //66 #LATIN CAPITAL LETTER A WITH ACUTE
0x00C2, //67 #LATIN CAPITAL LETTER A WITH CIRCUMFLEX
0x00C3, //68 #LATIN CAPITAL LETTER A WITH TILDE
0x00C4, //69 #LATIN CAPITAL LETTER A WITH DIAERESIS
0x00C5, //70 #LATIN CAPITAL LETTER A WITH RING ABOVE
0x00C6, //71 #LATIN CAPITAL LETTER AE
0x00C7, //72 #LATIN CAPITAL LETTER C WITH CEDILLA
0x00C8, //73 #LATIN CAPITAL LETTER E WITH GRAVE
0x00C9, //74 #LATIN CAPITAL LETTER E WITH ACUTE
0x00CA, //75 #LATIN CAPITAL LETTER E WITH CIRCUMFLEX
0x00CB, //76 #LATIN CAPITAL LETTER E WITH DIAERESIS
0x00CC, //77 #LATIN CAPITAL LETTER I WITH GRAVE
0x00CD, //78 #LATIN CAPITAL LETTER I WITH ACUTE
0x00CE, //79 #LATIN CAPITAL LETTER I WITH CIRCUMFLEX
0x00CF, //80 #LATIN CAPITAL LETTER I WITH DIAERESIS
0x011E, //81 #LATIN CAPITAL LETTER G WITH BREVE
0x00D1, //82 #LATIN CAPITAL LETTER N WITH TILDE
0x00D2, //83 #LATIN CAPITAL LETTER O WITH GRAVE
0x00D3, //84 #LATIN CAPITAL LETTER O WITH ACUTE
0x00D4, //85 #LATIN CAPITAL LETTER O WITH CIRCUMFLEX
0x00D5, //86 #LATIN CAPITAL LETTER O WITH TILDE
0x00D6, //87 #LATIN CAPITAL LETTER O WITH DIAERESIS
0x00D7, //88 #MULTIPLICATION SIGN
0x00D8, //89 #LATIN CAPITAL LETTER O WITH STROKE
0x00D9, //90 #LATIN CAPITAL LETTER U WITH GRAVE
0x00DA, //91 #LATIN CAPITAL LETTER U WITH ACUTE
0x00DB, //92 #LATIN CAPITAL LETTER U WITH CIRCUMFLEX
0x00DC, //93 #LATIN CAPITAL LETTER U WITH DIAERESIS
0x0130, //94 #LATIN CAPITAL LETTER I WITH DOT ABOVE
0x015E, //95 #LATIN CAPITAL LETTER S WITH CEDILLA
0x00DF, //96 #LATIN SMALL LETTER SHARP S
0x00E0, //97 #LATIN SMALL LETTER A WITH GRAVE
0x00E1, //98 #LATIN SMALL LETTER A WITH ACUTE
0x00E2, //99 #LATIN SMALL LETTER A WITH CIRCUMFLEX
0x00E3, //100 #LATIN SMALL LETTER A WITH TILDE
0x00E4, //101 #LATIN SMALL LETTER A WITH DIAERESIS
0x00E5, //102 #LATIN SMALL LETTER A WITH RING ABOVE
0x00E6, //103 #LATIN SMALL LETTER AE
0x00E7, //104 #LATIN SMALL LETTER C WITH CEDILLA
0x00E8, //105 #LATIN SMALL LETTER E WITH GRAVE
0x00E9, //106 #LATIN SMALL LETTER E WITH ACUTE
0x00EA, //107 #LATIN SMALL LETTER E WITH CIRCUMFLEX
0x00EB, //108 #LATIN SMALL LETTER E WITH DIAERESIS
0x00EC, //109 #LATIN SMALL LETTER I WITH GRAVE
0x00ED, //110 #LATIN SMALL LETTER I WITH ACUTE
0x00EE, //111 #LATIN SMALL LETTER I WITH CIRCUMFLEX
0x00EF, //112 #LATIN SMALL LETTER I WITH DIAERESIS
0x011F, //113 #LATIN SMALL LETTER G WITH BREVE
0x00F1, //114 #LATIN SMALL LETTER N WITH TILDE
0x00F2, //115 #LATIN SMALL LETTER O WITH GRAVE
0x00F3, //116 #LATIN SMALL LETTER O WITH ACUTE
0x00F4, //117 #LATIN SMALL LETTER O WITH CIRCUMFLEX
0x00F5, //118 #LATIN SMALL LETTER O WITH TILDE
0x00F6, //119 #LATIN SMALL LETTER O WITH DIAERESIS
0x00F7, //120 #DIVISION SIGN
0x00F8, //121 #LATIN SMALL LETTER O WITH STROKE
0x00F9, //122 #LATIN SMALL LETTER U WITH GRAVE
0x00FA, //123 #LATIN SMALL LETTER U WITH ACUTE
0x00FB, //124 #LATIN SMALL LETTER U WITH CIRCUMFLEX
0x00FC, //125 #LATIN SMALL LETTER U WITH DIAERESIS
0x0131, //126 #LATIN SMALL LETTER DOTLESS I
0x015F, //127 #LATIN SMALL LETTER S WITH CEDILLA
0x00FF //128 #LATIN SMALL LETTER Y WITH DIAERESIS
};
//Table 1255
static const int DRW_Table1255[] = {
0x20AC, //1 #EURO SIGN
0x00 , //2 #UNDEFINED
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x0192, //4 #LATIN SMALL LETTER F WITH HOOK
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x02C6, //9 #MODIFIER LETTER CIRCUMFLEX ACCENT
0x2030, //10 #PER MILLE SIGN
0x00 , //11 #UNDEFINED
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x00 , //13 #UNDEFINED
0x00 , //14 #UNDEFINED
0x00 , //15 #UNDEFINED
0x00 , //16 #UNDEFINED
0x00 , //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x02DC, //25 #SMALL TILDE
0x2122, //26 #TRADE MARK SIGN
0x00 , //27 #UNDEFINED
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x00 , //29 #UNDEFINED
0x00 , //30 #UNDEFINED
0x00 , //31 #UNDEFINED
0x00 , //32 #UNDEFINED
0x00A0, //33 #NO-BREAK SPACE
0x00A1, //34 #INVERTED EXCLAMATION MARK
0x00A2, //35 #CENT SIGN
0x00A3, //36 #POUND SIGN
0x20AA, //37 #NEW SHEQEL SIGN
0x00A5, //38 #YEN SIGN
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00A8, //41 #DIAERESIS
0x00A9, //42 #COPYRIGHT SIGN
0x00D7, //43 #MULTIPLICATION SIGN
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x00AF, //48 #MACRON
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x00B2, //51 #SUPERSCRIPT TWO
0x00B3, //52 #SUPERSCRIPT THREE
0x00B4, //53 #ACUTE ACCENT
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x00B8, //57 #CEDILLA
0x00B9, //58 #SUPERSCRIPT ONE
0x00F7, //59 #DIVISION SIGN
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00BC, //61 #VULGAR FRACTION ONE QUARTER
0x00BD, //62 #VULGAR FRACTION ONE HALF
0x00BE, //63 #VULGAR FRACTION THREE QUARTERS
0x00BF, //64 #INVERTED QUESTION MARK
0x05B0, //65 #HEBREW POINT SHEVA
0x05B1, //66 #HEBREW POINT HATAF SEGOL
0x05B2, //67 #HEBREW POINT HATAF PATAH
0x05B3, //68 #HEBREW POINT HATAF QAMATS
0x05B4, //69 #HEBREW POINT HIRIQ
0x05B5, //70 #HEBREW POINT TSERE
0x05B6, //71 #HEBREW POINT SEGOL
0x05B7, //72 #HEBREW POINT PATAH
0x05B8, //73 #HEBREW POINT QAMATS
0x05B9, //74 #HEBREW POINT HOLAM
0x00 , //75 #UNDEFINED
0x05BB, //76 #HEBREW POINT QUBUTS
0x05BC, //77 #HEBREW POINT DAGESH OR MAPIQ
0x05BD, //78 #HEBREW POINT METEG
0x05BE, //79 #HEBREW PUNCTUATION MAQAF
0x05BF, //80 #HEBREW POINT RAFE
0x05C0, //81 #HEBREW PUNCTUATION PASEQ
0x05C1, //82 #HEBREW POINT SHIN DOT
0x05C2, //83 #HEBREW POINT SIN DOT
0x05C3, //84 #HEBREW PUNCTUATION SOF PASUQ
0x05F0, //85 #HEBREW LIGATURE YIDDISH DOUBLE VAV
0x05F1, //86 #HEBREW LIGATURE YIDDISH VAV YOD
0x05F2, //87 #HEBREW LIGATURE YIDDISH DOUBLE YOD
0x05F3, //88 #HEBREW PUNCTUATION GERESH
0x05F4, //89 #HEBREW PUNCTUATION GERSHAYIM
0x00 , //90 #UNDEFINED
0x00 , //91 #UNDEFINED
0x00 , //92 #UNDEFINED
0x00 , //93 #UNDEFINED
0x00 , //94 #UNDEFINED
0x00 , //95 #UNDEFINED
0x00 , //96 #UNDEFINED
0x05D0, //97 #HEBREW LETTER ALEF
0x05D1, //98 #HEBREW LETTER BET
0x05D2, //99 #HEBREW LETTER GIMEL
0x05D3, //100 #HEBREW LETTER DALET
0x05D4, //101 #HEBREW LETTER HE
0x05D5, //102 #HEBREW LETTER VAV
0x05D6, //103 #HEBREW LETTER ZAYIN
0x05D7, //104 #HEBREW LETTER HET
0x05D8, //105 #HEBREW LETTER TET
0x05D9, //106 #HEBREW LETTER YOD
0x05DA, //107 #HEBREW LETTER FINAL KAF
0x05DB, //108 #HEBREW LETTER KAF
0x05DC, //109 #HEBREW LETTER LAMED
0x05DD, //110 #HEBREW LETTER FINAL MEM
0x05DE, //111 #HEBREW LETTER MEM
0x05DF, //112 #HEBREW LETTER FINAL NUN
0x05E0, //113 #HEBREW LETTER NUN
0x05E1, //114 #HEBREW LETTER SAMEKH
0x05E2, //115 #HEBREW LETTER AYIN
0x05E3, //116 #HEBREW LETTER FINAL PE
0x05E4, //117 #HEBREW LETTER PE
0x05E5, //118 #HEBREW LETTER FINAL TSADI
0x05E6, //119 #HEBREW LETTER TSADI
0x05E7, //120 #HEBREW LETTER QOF
0x05E8, //121 #HEBREW LETTER RESH
0x05E9, //122 #HEBREW LETTER SHIN
0x05EA, //123 #HEBREW LETTER TAV
0x00 , //124 #UNDEFINED
0x00 , //125 #UNDEFINED
0x200E, //126 #LEFT-TO-RIGHT MARK
0x200F, //127 #RIGHT-TO-LEFT MARK
0x00 //128 #UNDEFINED
};
//Table 1256
static const int DRW_Table1256[] = {
0x20AC, //1 #EURO SIGN
0x067E, //2 #ARABIC LETTER PEH
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x0192, //4 #LATIN SMALL LETTER F WITH HOOK
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x02C6, //9 #MODIFIER LETTER CIRCUMFLEX ACCENT
0x2030, //10 #PER MILLE SIGN
0x0679, //11 #ARABIC LETTER TTEH
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x0152, //13 #LATIN CAPITAL LIGATURE OE
0x0686, //14 #ARABIC LETTER TCHEH
0x0698, //15 #ARABIC LETTER JEH
0x0688, //16 #ARABIC LETTER DDAL
0x06AF, //17 #ARABIC LETTER GAF
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x06A9, //25 #ARABIC LETTER KEHEH
0x2122, //26 #TRADE MARK SIGN
0x0691, //27 #ARABIC LETTER RREH
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x0153, //29 #LATIN SMALL LIGATURE OE
0x200C, //30 #ZERO WIDTH NON-JOINER
0x200D, //31 #ZERO WIDTH JOINER
0x06BA, //32 #ARABIC LETTER NOON GHUNNA
0x00A0, //33 #NO-BREAK SPACE
0x060C, //34 #ARABIC COMMA
0x00A2, //35 #CENT SIGN
0x00A3, //36 #POUND SIGN
0x00A4, //37 #CURRENCY SIGN
0x00A5, //38 #YEN SIGN
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00A8, //41 #DIAERESIS
0x00A9, //42 #COPYRIGHT SIGN
0x06BE, //43 #ARABIC LETTER HEH DOACHASHMEE
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x00AF, //48 #MACRON
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x00B2, //51 #SUPERSCRIPT TWO
0x00B3, //52 #SUPERSCRIPT THREE
0x00B4, //53 #ACUTE ACCENT
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x00B8, //57 #CEDILLA
0x00B9, //58 #SUPERSCRIPT ONE
0x061B, //59 #ARABIC SEMICOLON
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00BC, //61 #VULGAR FRACTION ONE QUARTER
0x00BD, //62 #VULGAR FRACTION ONE HALF
0x00BE, //63 #VULGAR FRACTION THREE QUARTERS
0x061F, //64 #ARABIC QUESTION MARK
0x06C1, //65 #ARABIC LETTER HEH GOAL
0x0621, //66 #ARABIC LETTER HAMZA
0x0622, //67 #ARABIC LETTER ALEF WITH MADDA ABOVE
0x0623, //68 #ARABIC LETTER ALEF WITH HAMZA ABOVE
0x0624, //69 #ARABIC LETTER WAW WITH HAMZA ABOVE
0x0625, //70 #ARABIC LETTER ALEF WITH HAMZA BELOW
0x0626, //71 #ARABIC LETTER YEH WITH HAMZA ABOVE
0x0627, //72 #ARABIC LETTER ALEF
0x0628, //73 #ARABIC LETTER BEH
0x0629, //74 #ARABIC LETTER TEH MARBUTA
0x062A, //75 #ARABIC LETTER TEH
0x062B, //76 #ARABIC LETTER THEH
0x062C, //77 #ARABIC LETTER JEEM
0x062D, //78 #ARABIC LETTER HAH
0x062E, //79 #ARABIC LETTER KHAH
0x062F, //80 #ARABIC LETTER DAL
0x0630, //81 #ARABIC LETTER THAL
0x0631, //82 #ARABIC LETTER REH
0x0632, //83 #ARABIC LETTER ZAIN
0x0633, //84 #ARABIC LETTER SEEN
0x0634, //85 #ARABIC LETTER SHEEN
0x0635, //86 #ARABIC LETTER SAD
0x0636, //87 #ARABIC LETTER DAD
0x00D7, //88 #MULTIPLICATION SIGN
0x0637, //89 #ARABIC LETTER TAH
0x0638, //90 #ARABIC LETTER ZAH
0x0639, //91 #ARABIC LETTER AIN
0x063A, //92 #ARABIC LETTER GHAIN
0x0640, //93 #ARABIC TATWEEL
0x0641, //94 #ARABIC LETTER FEH
0x0642, //95 #ARABIC LETTER QAF
0x0643, //96 #ARABIC LETTER KAF
0x00E0, //97 #LATIN SMALL LETTER A WITH GRAVE
0x0644, //98 #ARABIC LETTER LAM
0x00E2, //99 #LATIN SMALL LETTER A WITH CIRCUMFLEX
0x0645, //100 #ARABIC LETTER MEEM
0x0646, //101 #ARABIC LETTER NOON
0x0647, //102 #ARABIC LETTER HEH
0x0648, //103 #ARABIC LETTER WAW
0x00E7, //104 #LATIN SMALL LETTER C WITH CEDILLA
0x00E8, //105 #LATIN SMALL LETTER E WITH GRAVE
0x00E9, //106 #LATIN SMALL LETTER E WITH ACUTE
0x00EA, //107 #LATIN SMALL LETTER E WITH CIRCUMFLEX
0x00EB, //108 #LATIN SMALL LETTER E WITH DIAERESIS
0x0649, //109 #ARABIC LETTER ALEF MAKSURA
0x064A, //110 #ARABIC LETTER YEH
0x00EE, //111 #LATIN SMALL LETTER I WITH CIRCUMFLEX
0x00EF, //112 #LATIN SMALL LETTER I WITH DIAERESIS
0x064B, //113 #ARABIC FATHATAN
0x064C, //114 #ARABIC DAMMATAN
0x064D, //115 #ARABIC KASRATAN
0x064E, //116 #ARABIC FATHA
0x00F4, //117 #LATIN SMALL LETTER O WITH CIRCUMFLEX
0x064F, //118 #ARABIC DAMMA
0x0650, //119 #ARABIC KASRA
0x00F7, //120 #DIVISION SIGN
0x0651, //121 #ARABIC SHADDA
0x00F9, //122 #LATIN SMALL LETTER U WITH GRAVE
0x0652, //123 #ARABIC SUKUN
0x00FB, //124 #LATIN SMALL LETTER U WITH CIRCUMFLEX
0x00FC, //125 #LATIN SMALL LETTER U WITH DIAERESIS
0x200E, //126 #LEFT-TO-RIGHT MARK
0x200F, //127 #RIGHT-TO-LEFT MARK
0x06D2 //128 #ARABIC LETTER YEH BARREE
};
//Table 1257
static const int DRW_Table1257[] = {
0x20AC, //1 #EURO SIGN
0x00 , //2 #UNDEFINED
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x00 , //4 #UNDEFINED
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x00 , //9 #UNDEFINED
0x2030, //10 #PER MILLE SIGN
0x00 , //11 #UNDEFINED
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x00 , //13 #UNDEFINED
0x00A8, //14 #DIAERESIS
0x02C7, //15 #CARON
0x00B8, //16 #CEDILLA
0x00 , //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x00 , //25 #UNDEFINED
0x2122, //26 #TRADE MARK SIGN
0x00 , //27 #UNDEFINED
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x00 , //29 #UNDEFINED
0x00AF, //30 #MACRON
0x02DB, //31 #OGONEK
0x00 , //32 #UNDEFINED
0x00A0, //33 #NO-BREAK SPACE
0x00 , //34 #UNDEFINED
0x00A2, //35 #CENT SIGN
0x00A3, //36 #POUND SIGN
0x00A4, //37 #CURRENCY SIGN
0x00 , //38 #UNDEFINED
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00D8, //41 #LATIN CAPITAL LETTER O WITH STROKE
0x00A9, //42 #COPYRIGHT SIGN
0x0156, //43 #LATIN CAPITAL LETTER R WITH CEDILLA
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x00C6, //48 #LATIN CAPITAL LETTER AE
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x00B2, //51 #SUPERSCRIPT TWO
0x00B3, //52 #SUPERSCRIPT THREE
0x00B4, //53 #ACUTE ACCENT
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x00F8, //57 #LATIN SMALL LETTER O WITH STROKE
0x00B9, //58 #SUPERSCRIPT ONE
0x0157, //59 #LATIN SMALL LETTER R WITH CEDILLA
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00BC, //61 #VULGAR FRACTION ONE QUARTER
0x00BD, //62 #VULGAR FRACTION ONE HALF
0x00BE, //63 #VULGAR FRACTION THREE QUARTERS
0x00E6, //64 #LATIN SMALL LETTER AE
0x0104, //65 #LATIN CAPITAL LETTER A WITH OGONEK
0x012E, //66 #LATIN CAPITAL LETTER I WITH OGONEK
0x0100, //67 #LATIN CAPITAL LETTER A WITH MACRON
0x0106, //68 #LATIN CAPITAL LETTER C WITH ACUTE
0x00C4, //69 #LATIN CAPITAL LETTER A WITH DIAERESIS
0x00C5, //70 #LATIN CAPITAL LETTER A WITH RING ABOVE
0x0118, //71 #LATIN CAPITAL LETTER E WITH OGONEK
0x0112, //72 #LATIN CAPITAL LETTER E WITH MACRON
0x010C, //73 #LATIN CAPITAL LETTER C WITH CARON
0x00C9, //74 #LATIN CAPITAL LETTER E WITH ACUTE
0x0179, //75 #LATIN CAPITAL LETTER Z WITH ACUTE
0x0116, //76 #LATIN CAPITAL LETTER E WITH DOT ABOVE
0x0122, //77 #LATIN CAPITAL LETTER G WITH CEDILLA
0x0136, //78 #LATIN CAPITAL LETTER K WITH CEDILLA
0x012A, //79 #LATIN CAPITAL LETTER I WITH MACRON
0x013B, //80 #LATIN CAPITAL LETTER L WITH CEDILLA
0x0160, //81 #LATIN CAPITAL LETTER S WITH CARON
0x0143, //82 #LATIN CAPITAL LETTER N WITH ACUTE
0x0145, //83 #LATIN CAPITAL LETTER N WITH CEDILLA
0x00D3, //84 #LATIN CAPITAL LETTER O WITH ACUTE
0x014C, //85 #LATIN CAPITAL LETTER O WITH MACRON
0x00D5, //86 #LATIN CAPITAL LETTER O WITH TILDE
0x00D6, //87 #LATIN CAPITAL LETTER O WITH DIAERESIS
0x00D7, //88 #MULTIPLICATION SIGN
0x0172, //89 #LATIN CAPITAL LETTER U WITH OGONEK
0x0141, //90 #LATIN CAPITAL LETTER L WITH STROKE
0x015A, //91 #LATIN CAPITAL LETTER S WITH ACUTE
0x016A, //92 #LATIN CAPITAL LETTER U WITH MACRON
0x00DC, //93 #LATIN CAPITAL LETTER U WITH DIAERESIS
0x017B, //94 #LATIN CAPITAL LETTER Z WITH DOT ABOVE
0x017D, //95 #LATIN CAPITAL LETTER Z WITH CARON
0x00DF, //96 #LATIN SMALL LETTER SHARP S
0x0105, //97 #LATIN SMALL LETTER A WITH OGONEK
0x012F, //98 #LATIN SMALL LETTER I WITH OGONEK
0x0101, //99 #LATIN SMALL LETTER A WITH MACRON
0x0107, //100 #LATIN SMALL LETTER C WITH ACUTE
0x00E4, //101 #LATIN SMALL LETTER A WITH DIAERESIS
0x00E5, //102 #LATIN SMALL LETTER A WITH RING ABOVE
0x0119, //103 #LATIN SMALL LETTER E WITH OGONEK
0x0113, //104 #LATIN SMALL LETTER E WITH MACRON
0x010D, //105 #LATIN SMALL LETTER C WITH CARON
0x00E9, //106 #LATIN SMALL LETTER E WITH ACUTE
0x017A, //107 #LATIN SMALL LETTER Z WITH ACUTE
0x0117, //108 #LATIN SMALL LETTER E WITH DOT ABOVE
0x0123, //109 #LATIN SMALL LETTER G WITH CEDILLA
0x0137, //110 #LATIN SMALL LETTER K WITH CEDILLA
0x012B, //111 #LATIN SMALL LETTER I WITH MACRON
0x013C, //112 #LATIN SMALL LETTER L WITH CEDILLA
0x0161, //113 #LATIN SMALL LETTER S WITH CARON
0x0144, //114 #LATIN SMALL LETTER N WITH ACUTE
0x0146, //115 #LATIN SMALL LETTER N WITH CEDILLA
0x00F3, //116 #LATIN SMALL LETTER O WITH ACUTE
0x014D, //117 #LATIN SMALL LETTER O WITH MACRON
0x00F5, //118 #LATIN SMALL LETTER O WITH TILDE
0x00F6, //119 #LATIN SMALL LETTER O WITH DIAERESIS
0x00F7, //120 #DIVISION SIGN
0x0173, //121 #LATIN SMALL LETTER U WITH OGONEK
0x0142, //122 #LATIN SMALL LETTER L WITH STROKE
0x015B, //123 #LATIN SMALL LETTER S WITH ACUTE
0x016B, //124 #LATIN SMALL LETTER U WITH MACRON
0x00FC, //125 #LATIN SMALL LETTER U WITH DIAERESIS
0x017C, //126 #LATIN SMALL LETTER Z WITH DOT ABOVE
0x017E, //127 #LATIN SMALL LETTER Z WITH CARON
0x02D9 //128 #DOT ABOVE
};
//Table 1258
static const int DRW_Table1258[] = {
0x20AC, //1 #EURO SIGN
0x00 , //2 #UNDEFINED
0x201A, //3 #SINGLE LOW-9 QUOTATION MARK
0x0192, //4 #LATIN SMALL LETTER F WITH HOOK
0x201E, //5 #DOUBLE LOW-9 QUOTATION MARK
0x2026, //6 #HORIZONTAL ELLIPSIS
0x2020, //7 #DAGGER
0x2021, //8 #DOUBLE DAGGER
0x02C6, //9 #MODIFIER LETTER CIRCUMFLEX ACCENT
0x2030, //10 #PER MILLE SIGN
0x00 , //11 #UNDEFINED
0x2039, //12 #SINGLE LEFT-POINTING ANGLE QUOTATION MARK
0x0152, //13 #LATIN CAPITAL LIGATURE OE
0x00 , //14 #UNDEFINED
0x00 , //15 #UNDEFINED
0x00 , //16 #UNDEFINED
0x00 , //17 #UNDEFINED
0x2018, //18 #LEFT SINGLE QUOTATION MARK
0x2019, //19 #RIGHT SINGLE QUOTATION MARK
0x201C, //20 #LEFT DOUBLE QUOTATION MARK
0x201D, //21 #RIGHT DOUBLE QUOTATION MARK
0x2022, //22 #BULLET
0x2013, //23 #EN DASH
0x2014, //24 #EM DASH
0x02DC, //25 #SMALL TILDE
0x2122, //26 #TRADE MARK SIGN
0x00 , //27 #UNDEFINED
0x203A, //28 #SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
0x0153, //29 #LATIN SMALL LIGATURE OE
0x00 , //30 #UNDEFINED
0x00 , //31 #UNDEFINED
0x0178, //32 #LATIN CAPITAL LETTER Y WITH DIAERESIS
0x00A0, //33 #NO-BREAK SPACE
0x00A1, //34 #INVERTED EXCLAMATION MARK
0x00A2, //35 #CENT SIGN
0x00A3, //36 #POUND SIGN
0x00A4, //37 #CURRENCY SIGN
0x00A5, //38 #YEN SIGN
0x00A6, //39 #BROKEN BAR
0x00A7, //40 #SECTION SIGN
0x00A8, //41 #DIAERESIS
0x00A9, //42 #COPYRIGHT SIGN
0x00AA, //43 #FEMININE ORDINAL INDICATOR
0x00AB, //44 #LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00AC, //45 #NOT SIGN
0x00AD, //46 #SOFT HYPHEN
0x00AE, //47 #REGISTERED SIGN
0x00AF, //48 #MACRON
0x00B0, //49 #DEGREE SIGN
0x00B1, //50 #PLUS-MINUS SIGN
0x00B2, //51 #SUPERSCRIPT TWO
0x00B3, //52 #SUPERSCRIPT THREE
0x00B4, //53 #ACUTE ACCENT
0x00B5, //54 #MICRO SIGN
0x00B6, //55 #PILCROW SIGN
0x00B7, //56 #MIDDLE DOT
0x00B8, //57 #CEDILLA
0x00B9, //58 #SUPERSCRIPT ONE
0x00BA, //59 #MASCULINE ORDINAL INDICATOR
0x00BB, //60 #RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
0x00BC, //61 #VULGAR FRACTION ONE QUARTER
0x00BD, //62 #VULGAR FRACTION ONE HALF
0x00BE, //63 #VULGAR FRACTION THREE QUARTERS
0x00BF, //64 #INVERTED QUESTION MARK
0x00C0, //65 #LATIN CAPITAL LETTER A WITH GRAVE
0x00C1, //66 #LATIN CAPITAL LETTER A WITH ACUTE
0x00C2, //67 #LATIN CAPITAL LETTER A WITH CIRCUMFLEX
0x0102, //68 #LATIN CAPITAL LETTER A WITH BREVE
0x00C4, //69 #LATIN CAPITAL LETTER A WITH DIAERESIS
0x00C5, //70 #LATIN CAPITAL LETTER A WITH RING ABOVE
0x00C6, //71 #LATIN CAPITAL LETTER AE
0x00C7, //72 #LATIN CAPITAL LETTER C WITH CEDILLA
0x00C8, //73 #LATIN CAPITAL LETTER E WITH GRAVE
0x00C9, //74 #LATIN CAPITAL LETTER E WITH ACUTE
0x00CA, //75 #LATIN CAPITAL LETTER E WITH CIRCUMFLEX
0x00CB, //76 #LATIN CAPITAL LETTER E WITH DIAERESIS
0x0300, //77 #COMBINING GRAVE ACCENT
0x00CD, //78 #LATIN CAPITAL LETTER I WITH ACUTE
0x00CE, //79 #LATIN CAPITAL LETTER I WITH CIRCUMFLEX
0x00CF, //80 #LATIN CAPITAL LETTER I WITH DIAERESIS
0x0110, //81 #LATIN CAPITAL LETTER D WITH STROKE
0x00D1, //82 #LATIN CAPITAL LETTER N WITH TILDE
0x0309, //83 #COMBINING HOOK ABOVE
0x00D3, //84 #LATIN CAPITAL LETTER O WITH ACUTE
0x00D4, //85 #LATIN CAPITAL LETTER O WITH CIRCUMFLEX
0x01A0, //86 #LATIN CAPITAL LETTER O WITH HORN
0x00D6, //87 #LATIN CAPITAL LETTER O WITH DIAERESIS
0x00D7, //88 #MULTIPLICATION SIGN
0x00D8, //89 #LATIN CAPITAL LETTER O WITH STROKE
0x00D9, //90 #LATIN CAPITAL LETTER U WITH GRAVE
0x00DA, //91 #LATIN CAPITAL LETTER U WITH ACUTE
0x00DB, //92 #LATIN CAPITAL LETTER U WITH CIRCUMFLEX
0x00DC, //93 #LATIN CAPITAL LETTER U WITH DIAERESIS
0x01AF, //94 #LATIN CAPITAL LETTER U WITH HORN
0x0303, //95 #COMBINING TILDE
0x00DF, //96 #LATIN SMALL LETTER SHARP S
0x00E0, //97 #LATIN SMALL LETTER A WITH GRAVE
0x00E1, //98 #LATIN SMALL LETTER A WITH ACUTE
0x00E2, //99 #LATIN SMALL LETTER A WITH CIRCUMFLEX
0x0103, //100 #LATIN SMALL LETTER A WITH BREVE
0x00E4, //101 #LATIN SMALL LETTER A WITH DIAERESIS
0x00E5, //102 #LATIN SMALL LETTER A WITH RING ABOVE
0x00E6, //103 #LATIN SMALL LETTER AE
0x00E7, //104 #LATIN SMALL LETTER C WITH CEDILLA
0x00E8, //105 #LATIN SMALL LETTER E WITH GRAVE
0x00E9, //106 #LATIN SMALL LETTER E WITH ACUTE
0x00EA, //107 #LATIN SMALL LETTER E WITH CIRCUMFLEX
0x00EB, //108 #LATIN SMALL LETTER E WITH DIAERESIS
0x0301, //109 #COMBINING ACUTE ACCENT
0x00ED, //110 #LATIN SMALL LETTER I WITH ACUTE
0x00EE, //111 #LATIN SMALL LETTER I WITH CIRCUMFLEX
0x00EF, //112 #LATIN SMALL LETTER I WITH DIAERESIS
0x0111, //113 #LATIN SMALL LETTER D WITH STROKE
0x00F1, //114 #LATIN SMALL LETTER N WITH TILDE
0x0323, //115 #COMBINING DOT BELOW
0x00F3, //116 #LATIN SMALL LETTER O WITH ACUTE
0x00F4, //117 #LATIN SMALL LETTER O WITH CIRCUMFLEX
0x01A1, //118 #LATIN SMALL LETTER O WITH HORN
0x00F6, //119 #LATIN SMALL LETTER O WITH DIAERESIS
0x00F7, //120 #DIVISION SIGN
0x00F8, //121 #LATIN SMALL LETTER O WITH STROKE
0x00F9, //122 #LATIN SMALL LETTER U WITH GRAVE
0x00FA, //123 #LATIN SMALL LETTER U WITH ACUTE
0x00FB, //124 #LATIN SMALL LETTER U WITH CIRCUMFLEX
0x00FC, //125 #LATIN SMALL LETTER U WITH DIAERESIS
0x01B0, //126 #LATIN SMALL LETTER U WITH HORN
0x20AB, //127 #DONG SIGN
0x00FF //128 #LATIN SMALL LETTER Y WITH DIAERESIS
};
#endif // DRW_CPTABLES_H
#include "drw_textcodec.h"
#include <sstream>
#include <iomanip>
#include <algorithm>
#include "../drw_base.h"
#include "drw_cptables.h"
#include "drw_cptable932.h"
#include "drw_cptable936.h"
#include "drw_cptable949.h"
#include "drw_cptable950.h"
DRW_TextCodec::DRW_TextCodec() {
version = DRW::AC1021;
conv = new DRW_Converter(NULL, 0);
}
DRW_TextCodec::~DRW_TextCodec() {
delete conv;
}
void DRW_TextCodec::setVersion(std::string *v){
std::string versionStr = *v;
if (versionStr == "AC1009" || versionStr == "AC1006") {
version = DRW::AC1009;
cp = "ANSI_1252";
setCodePage(&cp);
} else if (versionStr == "AC1012" || versionStr == "AC1014"
|| versionStr == "AC1015" || versionStr == "AC1018") {
version = DRW::AC1015;
if (cp.empty()) { //codepage not set, initialize
cp = "ANSI_1252";
setCodePage(&cp);
}
} else {
version = DRW::AC1021;
cp = "ANSI_1252";
}
}
void DRW_TextCodec::setCodePage(std::string *c){
cp = correctCodePage(*c);
delete conv;
if (version == DRW::AC1009 || version == DRW::AC1015) {
if (cp == "ANSI_874")
conv = new DRW_ConvTable(DRW_Table874, CPLENGHTCOMMON);
else if (cp == "ANSI_932")
conv = new DRW_Conv932Table(DRW_Table932, DRW_LeadTable932,
DRW_DoubleTable932, CPLENGHT932);
else if (cp == "ANSI_936")
conv = new DRW_ConvDBCSTable(DRW_Table936, DRW_LeadTable936,
DRW_DoubleTable936, CPLENGHT936);
else if (cp == "ANSI_949")
conv = new DRW_ConvDBCSTable(DRW_Table949, DRW_LeadTable949,
DRW_DoubleTable949, CPLENGHT949);
else if (cp == "ANSI_950")
conv = new DRW_ConvDBCSTable(DRW_Table950, DRW_LeadTable950,
DRW_DoubleTable950, CPLENGHT950);
else if (cp == "ANSI_1250")
conv = new DRW_ConvTable(DRW_Table1250, CPLENGHTCOMMON);
else if (cp == "ANSI_1251")
conv = new DRW_ConvTable(DRW_Table1251, CPLENGHTCOMMON);
else if (cp == "ANSI_1253")
conv = new DRW_ConvTable(DRW_Table1253, CPLENGHTCOMMON);
else if (cp == "ANSI_1254")
conv = new DRW_ConvTable(DRW_Table1254, CPLENGHTCOMMON);
else if (cp == "ANSI_1255")
conv = new DRW_ConvTable(DRW_Table1255, CPLENGHTCOMMON);
else if (cp == "ANSI_1256")
conv = new DRW_ConvTable(DRW_Table1256, CPLENGHTCOMMON);
else if (cp == "ANSI_1257")
conv = new DRW_ConvTable(DRW_Table1257, CPLENGHTCOMMON);
else if (cp == "ANSI_1258")
conv = new DRW_ConvTable(DRW_Table1258, CPLENGHTCOMMON);
else if (cp == "UTF-8") { //DXF older than 2007 are write in win codepages
cp = "ANSI_1252";
conv = new DRW_Converter(NULL, 0);
} else
conv = new DRW_ConvTable(DRW_Table1252, CPLENGHTCOMMON);
} else {
conv = new DRW_Converter(NULL, 0);
}
}
std::string DRW_TextCodec::toUtf8(std::string s) {
return conv->toUtf8(&s);
}
std::string DRW_TextCodec::fromUtf8(std::string s) {
return conv->fromUtf8(&s);
}
std::string DRW_Converter::toUtf8(std::string *s) {
std::string result;
int j = 0;
unsigned int i= 0;
for (i=0; i < s->length(); i++) {
unsigned char c = s->at(i);
if (c < 0x80) { //ascii check for /U+????
if (c == '\\' && i+6 < s->length() && s->at(i+1) == 'U' && s->at(i+2) == '+') {
result += s->substr(j,i-j);
result += encodeText(s->substr(i,7));
i +=6;
j = i+1;
}
} else if (c < 0xE0 ) {//2 bits
i++;
} else if (c < 0xF0 ) {//3 bits
i +=2;
} else if (c < 0xF8 ) {//4 bits
i +=3;
}
}
result += s->substr(j);
return result;
}
std::string DRW_ConvTable::fromUtf8(std::string *s) {
std::string result;
bool notFound;
int code;
int j = 0;
for (unsigned int i=0; i < s->length(); i++) {
unsigned char c = s->at(i);
if (c > 0x7F) { //need to decode
result += s->substr(j,i-j);
std::string part1 = s->substr(i,4);
int l;
code = decodeNum(part1, &l);
j = i+l;
i = j - 1;
notFound = true;
for (int k=0; k<cpLenght; k++){
if(table[k] == code) {
result += CPOFFSET + k; //translate from table
notFound = false;
break;
}
}
if (notFound)
result += decodeText(code);
}
}
result += s->substr(j);
return result;
}
std::string DRW_ConvTable::toUtf8(std::string *s) {
std::string res;
string::iterator it;
for ( it=s->begin() ; it < s->end(); it++ ) {
unsigned char c = *it;
if (c < 0x80) {
//check for \U+ encoded text
if (c == '\\') {
if (it+6 < s->end() && *(it+1) == 'U' && *(it+2) == '+') {
res += encodeText(std::string(it, it+7));
it +=6;
} else {
res +=c; //no \U+ encoded text write
}
} else
res +=c; //c!='\' ascii char write
} else {//end c < 0x80
res += encodeNum(table[c-0x80]); //translate from table
}
} //end for
return res;
}
std::string DRW_Converter::encodeText(std::string stmp){
int code;
#if defined(__APPLE__)
int Succeeded = sscanf (&( stmp.substr(3,4)[0]), "%x", &code );
if ( !Succeeded || Succeeded == EOF )
code = 0;
#else
std::istringstream sd(stmp.substr(3,4));
sd >> std::hex >> code;
#endif
return encodeNum(code);
}
std::string DRW_Converter::decodeText(int c){
std::string res = "\\U+";
std::string num;
#if defined(__APPLE__)
std::string str(16, '\0');
snprintf (&(str[0]), 16, "%04X", c );
num = str;
#else
std::stringstream ss;
ss << std::uppercase << std::setfill('0') << std::setw(4) << std::hex << c;
ss >> num;
#endif
res += num;
return res;
}
std::string DRW_Converter::encodeNum(int c){
unsigned char ret[5];
if (c < 128) { // 0-7F US-ASCII 7 bits
ret[0] = c;
ret[1] = 0;
} else if (c < 0x800) { //80-07FF 2 bytes
ret[0] = 0xC0 | (c >> 6);
ret[1] = 0x80 | (c & 0x3f);
ret[2] = 0;
} else if (c< 0x10000) { //800-FFFF 3 bytes
ret[0] = 0xe0 | (c >> 12);
ret[1] = 0x80 | ((c >> 6) & 0x3f);
ret[2] = 0x80 | (c & 0x3f);
ret[3] = 0;
} else { //10000-10FFFF 4 bytes
ret[0] = 0xf0 | (c >> 18);
ret[1] = 0x80 | ((c >> 12) & 0x3f);
ret[2] = 0x80 | ((c >> 6) & 0x3f);
ret[3] = 0x80 | (c & 0x3f);
ret[4] = 0;
}
return std::string((char*)ret);
}
/** 's' is a string with at least 4 bytes lenght
** returned 'b' is byte lenght of encoded char: 2,3 or 4
**/
int DRW_Converter::decodeNum(std::string s, int *b){
int code= 0;
unsigned char c = s.at(0);
if ( (c& 0xE0) == 0xC0) { //2 bytes
code = ( c&0x1F)<<6;
code = (s.at(1) &0x3F) | code;
*b = 2;
} else if ( (c& 0xF0) == 0xE0) { //3 bytes
code = ( c&0x0F)<<12;
code = ((s.at(1) &0x3F)<<6) | code;
code = (s.at(2) &0x3F) | code;
*b = 3;
} else if ( (c& 0xF8) == 0xF0) { //4 bytes
code = ( c&0x07)<<18;
code = ((s.at(1) &0x3F)<<12) | code;
code = ((s.at(2) &0x3F)<<6) | code;
code = (s.at(3) &0x3F) | code;
*b = 4;
}
return code;
}
std::string DRW_ConvDBCSTable::fromUtf8(std::string *s) {
std::string result;
bool notFound;
int code;
int j = 0;
for (unsigned int i=0; i < s->length(); i++) {
unsigned char c = s->at(i);
if (c > 0x7F) { //need to decode
result += s->substr(j,i-j);
std::string part1 = s->substr(i,4);
int l;
code = decodeNum(part1, &l);
j = i+l;
i = j - 1;
notFound = true;
for (int k=0; k<cpLenght; k++){
if(doubleTable[k][1] == code) {
int data = doubleTable[k][0];
char d[3];
d[0] = data >> 8;
d[1] = data & 0xFF;
d[2]= '\0';
result += d; //translate from table
notFound = false;
break;
}
}
if (notFound)
result += decodeText(code);
} //direct conversion
}
result += s->substr(j);
return result;
}
std::string DRW_ConvDBCSTable::toUtf8(std::string *s) {
std::string res;
string::iterator it;
for ( it=s->begin() ; it < s->end(); it++ ) {
bool notFound = true;
unsigned char c = *it;
if (c < 0x80) {
notFound = false;
//check for \U+ encoded text
if (c == '\\') {
if (it+6 < s->end() && *(it+1) == 'U' && *(it+2) == '+') {
res += encodeText(std::string(it, it+7));
it +=6;
} else {
res +=c; //no \U+ encoded text write
}
} else
res +=c; //c!='\' ascii char write
} else if(c == 0x80 ){//1 byte table
notFound = false;
res += encodeNum(0x20AC);//euro sign
} else {//2 bytes
++it;
int code = (c << 8) | (unsigned char )(*it);
int sta = leadTable[c-0x81];
int end = leadTable[c-0x80];
for (int k=sta; k<end; k++){
if(doubleTable[k][0] == code) {
res += encodeNum(doubleTable[k][1]); //translate from table
notFound = false;
break;
}
}
}
//not found
if (notFound) res += encodeNum(NOTFOUND936);
} //end for
return res;
}
std::string DRW_Conv932Table::fromUtf8(std::string *s) {
std::string result;
bool notFound;
int code;
int j = 0;
for (unsigned int i=0; i < s->length(); i++) {
unsigned char c = s->at(i);
if (c > 0x7F) { //need to decode
result += s->substr(j,i-j);
std::string part1 = s->substr(i,4);
int l;
code = decodeNum(part1, &l);
j = i+l;
i = j - 1;
notFound = true;
// 1 byte table
if (code > 0xff60 && code < 0xFFA0) {
result += code - CPOFFSET932; //translate from table
notFound = false;
}
if (notFound && ( code<0xF8 || (code>0x390 && code<0x542) ||
(code>0x200F && code<0x9FA1) || code>0xF928 )) {
for (int k=0; k<cpLenght; k++){
if(doubleTable[k][1] == code) {
int data = doubleTable[k][0];
char d[3];
d[0] = data >> 8;
d[1] = data & 0xFF;
d[2]= '\0';
result += d; //translate from table
notFound = false;
break;
}
}
}
if (notFound)
result += decodeText(code);
} //direct conversion
}
result += s->substr(j);
return result;
}
std::string DRW_Conv932Table::toUtf8(std::string *s) {
std::string res;
string::iterator it;
for ( it=s->begin() ; it < s->end(); it++ ) {
bool notFound = true;
unsigned char c = *it;
if (c < 0x80) {
notFound = false;
//check for \U+ encoded text
if (c == '\\') {
if (it+6 < s->end() && *(it+1) == 'U' && *(it+2) == '+') {
res += encodeText(std::string(it, it+7));
it +=6;
} else {
res +=c; //no \U+ encoded text write
}
} else
res +=c; //c!='\' ascii char write
} else if(c > 0xA0 && c < 0xE0 ){//1 byte table
notFound = false;
res += encodeNum(c + CPOFFSET932); //translate from table
} else {//2 bytes
++it;
int code = (c << 8) | (unsigned char )(*it);
int sta;
int end=0;
if (c > 0x80 && c < 0xA0) {
sta = DRW_LeadTable932[c-0x81];
end = DRW_LeadTable932[c-0x80];
} else if (c > 0xDF && c < 0xFD){
sta = DRW_LeadTable932[c-0xC1];
end = DRW_LeadTable932[c-0xC0];
}
if (end > 0) {
for (int k=sta; k<end; k++){
if(DRW_DoubleTable932[k][0] == code) {
res += encodeNum(DRW_DoubleTable932[k][1]); //translate from table
notFound = false;
break;
}
}
}
}
//not found
if (notFound) res += encodeNum(NOTFOUND932);
} //end for
return res;
}
std::string DRW_TextCodec::correctCodePage(const std::string& s) {
//stringstream cause crash in OS/X, bug#3597944
std::string cp=s;
transform(cp.begin(), cp.end(), cp.begin(), toupper);
//Latin/Thai
if (cp=="ANSI_874" || cp=="CP874" || cp=="ISO8859-11" || cp=="TIS-620") {
return "ANSI_874";
//Central Europe and Eastern Europe
} else if (cp=="ANSI_1250" || cp=="CP1250" || cp=="ISO8859-2") {
return "ANSI_1250";
//Cyrillic script
} else if (cp=="ANSI_1251" || cp=="CP1251" || cp=="ISO8859-5" || cp=="KOI8-R" ||
cp=="KOI8-U" || cp=="IBM 866") {
return "ANSI_1251";
//Western Europe
} else if (cp=="ANSI_1252" || cp=="CP1252" || cp=="LATIN1" || cp=="ISO-8859-1" ||
cp=="CP819" || cp=="CSISO" || cp=="IBM819" || cp=="ISO_8859-1" || cp=="APPLE ROMAN" ||
cp=="ISO8859-1" || cp=="ISO8859-15" || cp=="ISO-IR-100" || cp=="L1" || cp=="IBM 850") {
return "ANSI_1252";
//Greek
} else if (cp=="ANSI_1253" || cp=="CP1253" || cp=="iso8859-7") {
return "ANSI_1253";
//Turkish
} else if (cp=="ANSI_1254" || cp=="CP1254" || cp=="iso8859-9" || cp=="iso8859-3") {
return "ANSI_1254";
//Hebrew
} else if (cp=="ANSI_1255" || cp=="CP1255" || cp=="iso8859-8") {
return "ANSI_1255";
//Arabic
} else if (cp=="ANSI_1256" || cp=="CP1256" || cp=="ISO8859-6") {
return "ANSI_1256";
//Baltic
} else if (cp=="ANSI_1257" || cp=="CP1257" || cp=="ISO8859-4" || cp=="ISO8859-10" || cp=="ISO8859-13") {
return "ANSI_1257";
//Vietnamese
} else if (cp=="ANSI_1258" || cp=="CP1258") {
return "ANSI_1258";
//Japanese
} else if (cp=="ANSI_932" || cp=="SHIFT-JIS" || cp=="SHIFT_JIS" || cp=="CSSHIFTJIS" ||
cp=="CSWINDOWS31J" || cp=="MS_KANJI" || cp=="X-MS-CP932" || cp=="X-SJIS" ||
cp=="EUCJP" || cp=="EUC-JP" || cp=="CSEUCPKDFMTJAPANESE" || cp=="X-EUC" ||
cp=="X-EUC-JP" || cp=="JIS7") {
return "ANSI_932";
//Chinese PRC GBK (XGB) simplified
} else if (cp=="ANSI_936" || cp=="GBK" || cp=="GB2312" || cp=="CHINESE" || cp=="CN-GB" ||
cp=="CSGB2312" || cp=="CSGB231280" || cp=="CSISO58BG231280" ||
cp=="GB_2312-80" || cp=="GB231280" || cp=="GB2312-80" || cp=="GBK" ||
cp=="ISO-IR-58" || cp=="GB18030") {
return "ANSI_936";
//Korean
} else if (cp=="ANSI_949" || cp=="EUCKR") {
return "ANSI_949";
//Chinese Big5 (Taiwan, Hong Kong SAR)
} else if (cp=="ANSI_950" || cp=="BIG5" || cp=="CN-BIG5" || cp=="CSBIG5" ||
cp=="X-X-BIG5" || cp=="BIG5-HKSCS") {
return "ANSI_950";
//celtic
/* } else if (cp=="ISO8859-14") {
return "ISO8859-14";
} else if (cp=="TSCII") {
return "TSCII"; //tamil
} else if (cp=="UTF16") {
return "UTF16"; */
} else if (cp=="UTF-8" || cp=="UTF8" || cp=="UTF88-BIT") {
return "UTF-8";
}
return "ANSI_1252";
}
#ifndef DRW_TEXTCODEC_H
#define DRW_TEXTCODEC_H
#include <string>
class DRW_Converter;
class DRW_TextCodec
{
public:
DRW_TextCodec();
~DRW_TextCodec();
std::string fromUtf8(std::string s);
std::string toUtf8(std::string s);
int getVersion(){return version;}
void setVersion(std::string *v);
void setVersion(int v){version = v;}
void setCodePage(std::string *c);
void setCodePage(std::string c){setCodePage(&c);}
std::string getCodePage(){return cp;}
private:
std::string correctCodePage(const std::string& s);
private:
int version;
std::string cp;
DRW_Converter *conv;
};
class DRW_Converter
{
public:
DRW_Converter(const int *t, int l){table = t;
cpLenght = l;}
virtual ~DRW_Converter(){}
virtual std::string fromUtf8(std::string *s) {return *s;}
virtual std::string toUtf8(std::string *s);
std::string encodeText(std::string stmp);
std::string decodeText(int c);
std::string encodeNum(int c);
int decodeNum(std::string s, int *b);
const int *table;
int cpLenght;
};
class DRW_ConvTable : public DRW_Converter {
public:
DRW_ConvTable(const int *t, int l):DRW_Converter(t, l) {}
virtual std::string fromUtf8(std::string *s);
virtual std::string toUtf8(std::string *s);
};
class DRW_ConvDBCSTable : public DRW_Converter {
public:
DRW_ConvDBCSTable(const int *t, const int *lt, const int dt[][2], int l):DRW_Converter(t, l) {
leadTable = lt;
doubleTable = dt;
}
virtual std::string fromUtf8(std::string *s);
virtual std::string toUtf8(std::string *s);
private:
const int *leadTable;
const int (*doubleTable)[2];
};
class DRW_Conv932Table : public DRW_Converter {
public:
DRW_Conv932Table(const int *t, const int *lt, const int dt[][2], int l):DRW_Converter(t, l) {
leadTable = lt;
doubleTable = dt;
}
virtual std::string fromUtf8(std::string *s);
virtual std::string toUtf8(std::string *s);
private:
const int *leadTable;
const int (*doubleTable)[2];
};
#endif // DRW_TEXTCODEC_H
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#include <stdlib.h>
#include <fstream>
#include <string>
#include <sstream>
#include "dxfreader.h"
#include "drw_textcodec.h"
#ifdef DRW_DBG
#include <iostream> //for debug
#define DBG(a) std::cerr << a
#else
#define DBG(a)
#endif
bool dxfReader::readRec(int *codeData, bool skip) {
// std::string text;
int code;
#ifdef DRW_DBG
count = count+2; //DBG
/* if (count > 10250)
DBG("line 10256");*/
#endif
if (!readCode(&code))
return false;
*codeData = code;
if (code < 10)
readString();
else if (code < 60)
readDouble();
else if (code < 80)
readInt();
else if (code > 89 && code < 100) //TODO this is an int 32b
readInt32();
else if (code == 100 || code == 102 || code == 105)
readString();
else if (code > 109 && code < 150) //skip not used at the v2012
readDouble();
else if (code > 159 && code < 170) //skip not used at the v2012
readInt64();
else if (code < 180)
readInt();
else if (code > 209 && code < 240) //skip not used at the v2012
readDouble();
else if (code > 269 && code < 290) //skip not used at the v2012
readInt();
else if (code < 300) //TODO this is a boolean indicator, int in Binary?
readBool();
else if (code < 370)
readString();
else if (code < 390)
readInt();
else if (code < 400)
readString();
else if (code < 410)
readInt();
else if (code < 420)
readString();
else if (code < 430) //TODO this is an int 32b
readInt32();
else if (code < 440)
readString();
else if (code < 450) //TODO this is an int 32b
readInt32();
else if (code < 460) //TODO this is long??
readInt();
else if (code < 470) //TODO this is a floating point double precision??
readDouble();
else if (code < 481)
readString();
else if (code > 998 && code < 1009) //skip not used at the v2012
readString();
else if (code < 1060) //TODO this is a floating point double precision??
readDouble();
else if (code < 1071)
readInt();
else if (code == 1071) //TODO this is an int 32b
readInt32();
else if (skip)
//skip safely this dxf entry ( ok for ascii dxf)
readString();
else
//break in binary files because the conduct is unpredictable
return false;
return (filestr->good());
}
int dxfReader::getHandleString(){
int res;
#if defined(__APPLE__)
int Succeeded = sscanf ( strData.c_str(), "%x", &res );
if ( !Succeeded || Succeeded == EOF )
res = 0;
#else
std::istringstream Convert(strData);
if ( !(Convert >> std::hex >>res) )
res = 0;
#endif
return res;
}
bool dxfReaderBinary::readCode(int *code) {
unsigned short *int16p;
char buffer[2];
filestr->read(buffer,2);
int16p = (unsigned short *) buffer;
//exist a 32bits int (code 90) with 2 bytes???
if ((*code == 90) && (*int16p>2000)){
DBG(*code); DBG(" de 16bits\n");
filestr->seekg(-4, std::ios_base::cur);
filestr->read(buffer,2);
int16p = (unsigned short *) buffer;
}
*code = *int16p;
DBG(*code); DBG("\n");
return (filestr->good());
}
bool dxfReaderBinary::readString() {
std::getline(*filestr, strData, '\0');
DBG(strData); DBG("\n");
return (filestr->good());
}
bool dxfReaderBinary::readString(std::string *text) {
std::getline(*filestr, *text, '\0');
DBG(*text); DBG("\n");
return (filestr->good());
}
bool dxfReaderBinary::readInt() {
char buffer[2];
filestr->read(buffer,2);
intData = (int)((buffer[1] << 8) | buffer[0]);
DBG(intData); DBG("\n");
return (filestr->good());
}
bool dxfReaderBinary::readInt32() {
unsigned int *int32p;
char buffer[4];
filestr->read(buffer,4);
int32p = (unsigned int *) buffer;
intData = *int32p;
DBG(intData); DBG("\n");
return (filestr->good());
}
bool dxfReaderBinary::readInt64() {
unsigned long long int *int64p; //64 bits integer pointer
char buffer[8];
filestr->read(buffer,8);
int64p = (unsigned long long int *) buffer;
int64 = *int64p;
DBG(int64); DBG(" int64\n");
return (filestr->good());
}
bool dxfReaderBinary::readDouble() {
double *result;
char buffer[8];
filestr->read(buffer,8);
result = (double *) buffer;
doubleData = *result;
DBG(doubleData); DBG("\n");
return (filestr->good());
}
//saved as int or add a bool member??
bool dxfReaderBinary::readBool() {
char buffer[1];
filestr->read(buffer,1);
intData = (int)(buffer[0]);
DBG(intData); DBG("\n");
return (filestr->good());
}
bool dxfReaderAscii::readCode(int *code) {
std::string text;
std::getline(*filestr, text);
*code = atoi(text.c_str());
DBG(*code); DBG("\n");
return (filestr->good());
}
bool dxfReaderAscii::readString(std::string *text) {
std::getline(*filestr, *text);
if (!text->empty() && text->at(text->size()-1) == '\r')
text->erase(text->size()-1);
return (filestr->good());
}
bool dxfReaderAscii::readString() {
std::getline(*filestr, strData);
if (!strData.empty() && strData.at(strData.size()-1) == '\r')
strData.erase(strData.size()-1);
DBG(strData); DBG("\n");
return (filestr->good());
}
bool dxfReaderAscii::readInt() {
std::string text;
if (readString(&text)){
intData = atoi(text.c_str());
DBG(intData); DBG("\n");
return true;
} else
return false;
}
bool dxfReaderAscii::readInt32() {
return readInt();
}
bool dxfReaderAscii::readInt64() {
return readInt();
}
bool dxfReaderAscii::readDouble() {
std::string text;
if (readString(&text)){
#if defined(__APPLE__)
int succeeded=sscanf( & (text[0]), "%lg", &doubleData);
if(succeeded != 1) {
DBG("dxfReaderAscii::readDouble(): reading double error: ");
DBG(text);
DBG('\n');
}
#else
std::istringstream sd(text);
sd >> doubleData;
DBG(doubleData); DBG('\n');
#endif
return true;
} else
return false;
}
//saved as int or add a bool member??
bool dxfReaderAscii::readBool() {
std::string text;
if (readString(&text)){
intData = atoi(text.c_str());
DBG(intData); DBG("\n");
return true;
} else
return false;
}
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#ifndef DXFREADER_H
#define DXFREADER_H
#include "drw_textcodec.h"
class dxfReader {
public:
dxfReader(std::ifstream *stream){
filestr = stream;
#ifdef DRW_DBG
count =0;
#endif
}
virtual ~dxfReader(){}
virtual bool readCode(int *code) = 0; //return true if sucesful (not EOF)
virtual bool readString(std::string *text) = 0;
virtual bool readString() = 0;
bool readRec(int *code, bool skip);
virtual bool readInt() = 0;
virtual bool readInt32() = 0;
virtual bool readInt64() = 0;
virtual bool readDouble() = 0;
virtual bool readBool() = 0;
std::string getString() {return strData;}
int getHandleString();//Convert hex string to int
std::string toUtf8String(std::string t) {return decoder.toUtf8(t);}
std::string getUtf8String() {return decoder.toUtf8(strData);}
double getDouble() {return doubleData;}
int getInt32() {return intData;}
unsigned long long int getInt64() {return int64;}
bool getBool() { return (intData==0) ? false : true;}
int getVersion(){return decoder.getVersion();}
void setVersion(std::string *v){decoder.setVersion(v);}
void setCodePage(std::string *c){decoder.setCodePage(c);}
std::string getCodePage(){ return decoder.getCodePage();}
#ifdef DRW_DBG
int count;//DBG
#endif
protected:
std::ifstream *filestr;
std::string strData;
double doubleData;
signed short intData; //16 bits integer
unsigned long long int int64; //64 bits integer
private:
DRW_TextCodec decoder;
};
class dxfReaderBinary : public dxfReader {
public:
dxfReaderBinary(std::ifstream *stream):dxfReader(stream){ }
virtual ~dxfReaderBinary() {}
virtual bool readCode(int *code);
virtual bool readString(std::string *text);
virtual bool readString();
virtual bool readInt();
virtual bool readInt32();
virtual bool readInt64();
virtual bool readDouble();
virtual bool readBool();
};
class dxfReaderAscii : public dxfReader {
public:
dxfReaderAscii(std::ifstream *stream):dxfReader(stream){ }
virtual ~dxfReaderAscii(){}
virtual bool readCode(int *code);
virtual bool readString(std::string *text);
virtual bool readString();
virtual bool readInt();
virtual bool readDouble();
virtual bool readInt32();
virtual bool readInt64();
virtual bool readBool();
};
#endif // DXFREADER_H
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#include <stdlib.h>
#include <fstream>
#include <string>
#include <algorithm>
#include "dxfwriter.h"
#ifdef DRW_DBG
#include <iostream> //for debug
#define DBG(a) std::cerr << a
#else
#define DBG(a)
#endif
//RLZ TODO change std::endl to x0D x0A (13 10)
/*bool dxfWriter::readRec(int *codeData, bool skip) {
// std::string text;
int code;
#ifdef DRW_DBG
count = count+2; //DBG
#endif
if (!readCode(&code))
return false;
*codeData = code;
if (code < 10)
readString();
else if (code < 60)
readDouble();
else if (code < 80)
readInt();
else if (code > 89 && code < 100) //TODO this is an int 32b
readInt32();
else if (code == 100 || code == 102 || code == 105)
readString();
else if (code > 109 && code < 150) //skip not used at the v2012
readDouble();
else if (code > 159 && code < 170) //skip not used at the v2012
readInt64();
else if (code < 180)
readInt();
else if (code > 209 && code < 240) //skip not used at the v2012
readDouble();
else if (code > 269 && code < 290) //skip not used at the v2012
readInt();
else if (code < 300) //TODO this is a boolean indicator, int in Binary?
readBool();
else if (code < 370)
readString();
else if (code < 390)
readInt();
else if (code < 400)
readString();
else if (code < 410)
readInt();
else if (code < 420)
readString();
else if (code < 430) //TODO this is an int 32b
readInt32();
else if (code < 440)
readString();
else if (code < 450) //TODO this is an int 32b
readInt32();
else if (code < 460) //TODO this is long??
readInt();
else if (code < 470) //TODO this is a floating point double precision??
readDouble();
else if (code < 481)
readString();
else if (code > 998 && code < 1009) //skip not used at the v2012
readString();
else if (code < 1060) //TODO this is a floating point double precision??
readDouble();
else if (code < 1071)
readInt();
else if (code == 1071) //TODO this is an int 32b
readInt32();
else if (skip)
//skip safely this dxf entry ( ok for ascii dxf)
readString();
else
//break in binary files because the conduct is unpredictable
return false;
return (filestr->good());
}*/
bool dxfWriter::writeUtf8String(int code, std::string text) {
std::string t = encoder.fromUtf8(text);
return writeString(code, t);
}
bool dxfWriter::writeUtf8Caps(int code, std::string text) {
std::string strname = text;
std::transform(strname.begin(), strname.end(), strname.begin(),::toupper);
std::string t = encoder.fromUtf8(strname);
return writeString(code, t);
}
bool dxfWriterBinary::writeString(int code, std::string text) {
char bufcode[2];
bufcode[0] =code & 0xFF;
bufcode[1] =code >> 8;
filestr->write(bufcode, 2);
*filestr << text << '\0';
return (filestr->good());
}
/*bool dxfWriterBinary::readCode(int *code) {
unsigned short *int16p;
char buffer[2];
filestr->read(buffer,2);
int16p = (unsigned short *) buffer;
//exist a 32bits int (code 90) with 2 bytes???
if ((*code == 90) && (*int16p>2000)){
DBG(*code); DBG(" de 16bits\n");
filestr->seekg(-4, std::ios_base::cur);
filestr->read(buffer,2);
int16p = (unsigned short *) buffer;
}
*code = *int16p;
DBG(*code); DBG("\n");
return (filestr->good());
}*/
/*bool dxfWriterBinary::readString() {
std::getline(*filestr, strData, '\0');
DBG(strData); DBG("\n");
return (filestr->good());
}*/
/*bool dxfWriterBinary::readString(std::string *text) {
std::getline(*filestr, *text, '\0');
DBG(*text); DBG("\n");
return (filestr->good());
}*/
bool dxfWriterBinary::writeInt16(int code, int data) {
char bufcode[2];
char buffer[2];
bufcode[0] =code & 0xFF;
bufcode[1] =code >> 8;
buffer[0] =data & 0xFF;
buffer[1] =data >> 8;
filestr->write(bufcode, 2);
filestr->write(buffer, 2);
return (filestr->good());
}
bool dxfWriterBinary::writeInt32(int code, int data) {
char buffer[4];
buffer[0] =code & 0xFF;
buffer[1] =code >> 8;
filestr->write(buffer, 2);
buffer[0] =data & 0xFF;
buffer[1] =data >> 8;
buffer[2] =data >> 16;
buffer[3] =data >> 24;
filestr->write(buffer, 4);
return (filestr->good());
}
bool dxfWriterBinary::writeInt64(int code, unsigned long long int data) {
char buffer[8];
buffer[0] =code & 0xFF;
buffer[1] =code >> 8;
filestr->write(buffer, 2);
buffer[0] =data & 0xFF;
buffer[1] =data >> 8;
buffer[2] =data >> 16;
buffer[3] =data >> 24;
buffer[4] =data >> 32;
buffer[5] =data >> 40;
buffer[6] =data >> 48;
buffer[7] =data >> 56;
filestr->write(buffer, 8);
return (filestr->good());
}
bool dxfWriterBinary::writeDouble(int code, double data) {
char bufcode[2];
char buffer[8];
bufcode[0] =code & 0xFF;
bufcode[1] =code >> 8;
filestr->write(bufcode, 2);
unsigned char *val;
val = (unsigned char *) &data;
for (int i=0; i<8; i++) {
buffer[i] =val[i];
}
filestr->write(buffer, 8);
return (filestr->good());
}
//saved as int or add a bool member??
bool dxfWriterBinary::writeBool(int code, bool data) {
char buffer[1];
char bufcode[2];
bufcode[0] =code & 0xFF;
bufcode[1] =code >> 8;
filestr->write(bufcode, 2);
buffer[0] = data;
filestr->write(buffer, 1);
return (filestr->good());
}
bool dxfWriterAscii::writeString(int code, std::string text) {
*filestr << code << std::endl << text << std::endl ;
/* std::getline(*filestr, strData, '\0');
DBG(strData); DBG("\n");*/
return (filestr->good());
}
/*bool dxfWriterAscii::readCode(int *code) {
std::string text;
std::getline(*filestr, text);
*code = atoi(text.c_str());
DBG(*code); DBG("\n");
return (filestr->good());
}*/
/*bool dxfWriterAscii::readString(std::string *text) {
std::getline(*filestr, *text);
if (text->at(text->size()-1) == '\r')
text->erase(text->size()-1);
return (filestr->good());
}*/
/*bool dxfWriterAscii::readString() {
std::getline(*filestr, strData);
if (strData.at(strData.size()-1) == '\r')
strData.erase(strData.size()-1);
DBG(strData); DBG("\n");
return (filestr->good());
}*/
bool dxfWriterAscii::writeInt16(int code, int data) {
// *filestr << code << "\r\n" << data << "\r\n";
*filestr << code << std::endl << data << std::endl;
return (filestr->good());
}
bool dxfWriterAscii::writeInt32(int code, int data) {
return writeInt16(code, data);
}
bool dxfWriterAscii::writeInt64(int code, unsigned long long int data) {
*filestr << code << std::endl << data << std::endl;
return (filestr->good());
}
bool dxfWriterAscii::writeDouble(int code, double data) {
std::streamsize prec = filestr->precision();
filestr->precision(12);
*filestr << code << std::endl << data << std::endl;
filestr->precision(prec);
return (filestr->good());
}
//saved as int or add a bool member??
bool dxfWriterAscii::writeBool(int code, bool data) {
*filestr << code << std::endl << data << std::endl;
return (filestr->good());
}
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#ifndef DXFWRITER_H
#define DXFWRITER_H
#include "drw_textcodec.h"
class dxfWriter {
public:
dxfWriter(std::ofstream *stream){filestr = stream; /*count =0;*/}
virtual ~dxfWriter(){}
virtual bool writeString(int code, std::string text) = 0;
bool writeUtf8String(int code, std::string text);
bool writeUtf8Caps(int code, std::string text);
std::string fromUtf8String(std::string t) {return encoder.fromUtf8(t);}
virtual bool writeInt16(int code, int data) = 0;
virtual bool writeInt32(int code, int data) = 0;
virtual bool writeInt64(int code, unsigned long long int data) = 0;
virtual bool writeDouble(int code, double data) = 0;
virtual bool writeBool(int code, bool data) = 0;
void setVersion(std::string *v){encoder.setVersion(v);}
void setCodePage(std::string *c){encoder.setCodePage(c);}
std::string getCodePage(){return encoder.getCodePage();}
protected:
std::ofstream *filestr;
private:
DRW_TextCodec encoder;
};
class dxfWriterBinary : public dxfWriter {
public:
dxfWriterBinary(std::ofstream *stream):dxfWriter(stream){ }
virtual ~dxfWriterBinary() {}
virtual bool writeString(int code, std::string text);
virtual bool writeInt16(int code, int data);
virtual bool writeInt32(int code, int data);
virtual bool writeInt64(int code, unsigned long long int data);
virtual bool writeDouble(int code, double data);
virtual bool writeBool(int code, bool data);
};
class dxfWriterAscii : public dxfWriter {
public:
dxfWriterAscii(std::ofstream *stream):dxfWriter(stream){ }
virtual ~dxfWriterAscii(){}
virtual bool writeString(int code, std::string text);
virtual bool writeInt16(int code, int data);
virtual bool writeInt32(int code, int data);
virtual bool writeInt64(int code, unsigned long long int data);
virtual bool writeDouble(int code, double data);
virtual bool writeBool(int code, bool data);
};
#endif // DXFWRITER_H
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#include "libdxfrw.h"
#include <fstream>
#include <algorithm>
#include <sstream>
#include "intern/drw_textcodec.h"
#include "intern/dxfreader.h"
#include "intern/dxfwriter.h"
#include <assert.h>
#ifdef DRW_DBG
#include <iostream> // 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
}
dxfRW::~dxfRW()
{
if( reader != NULL )
delete reader;
}
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 )
{
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 );
// 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::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; j<loop->numedges; ++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; i<ent->vertexlist.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" );
// writer->writeString(2, ent->name);
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->getTextLineFactor() != 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; i<imageDef.size(); i++ )
{
if( imageDef.at( i )->name == 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] = 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 );
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 );
}
iface->writeBlockRecords();
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<imageDef.size(); i++ )
{
DRW_ImageDef* id = imageDef.at( i );
std::map<string, string>::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; i<imageDef.size(); i++ )
{
size_t f1, f2;
f1 = imageDef.at( i )->name.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; i<imageDef.size(); i++ )
{
DRW_ImageDef* id = imageDef.at( i );
writer->writeString( 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<string, string>::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;
}
/********* Reader Process *********/
bool dxfRW::processDxf()
{
DBG( "dxfRW::processDxf() start processing dxf\n" );
int code;
bool more = true;
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;
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;
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;
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;
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;
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;
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;
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;
}
/********* Block Section *********/
bool dxfRW::processBlocks()
{
DBG( "dxfRW::processBlocks\n" );
int code;
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__)
std::string buffer( 9, '\0' );
snprintf( &buffer[0], 9, "%X", n );
return buffer;
#else
std::ostringstream Convert;
Convert << std::uppercase << std::hex << n;
return Convert.str();
#endif
}
/******************************************************************************
** 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 <http://www.gnu.org/licenses/>. **
******************************************************************************/
#ifndef LIBDXFRW_H
#define LIBDXFRW_H
#include <string>
#include "drw_entities.h"
#include "drw_objects.h"
#include "drw_interface.h"
class dxfReader;
class dxfWriter;
class dxfRW
{
public:
dxfRW( const char* name );
~dxfRW();
// / reads the file specified in constructor
/*!
* An interface must be provided. It is used by the class to signal various
* components being added.
* @param interface_ the interface to use
* @param ext should the extrusion be applied to convert in 2D?
* @return true for success
*/
bool read( DRW_Interface* interface_, bool ext );
void setBinary( bool b ) { binary = b; }
bool write( DRW_Interface* interface_, DRW::Version ver, bool bin );
bool writeLineType( DRW_LType* ent );
bool writeLayer( DRW_Layer* ent );
bool writeDimstyle( DRW_Dimstyle* ent );
bool writeTextstyle( DRW_Textstyle* ent );
bool writeVport( DRW_Vport* ent );
bool writePoint( DRW_Point* ent );
bool writeLine( DRW_Line* ent );
bool writeRay( DRW_Ray* ent );
bool writeXline( DRW_Xline* ent );
bool writeCircle( DRW_Circle* ent );
bool writeArc( DRW_Arc* ent );
bool writeEllipse( DRW_Ellipse* ent );
bool writeTrace( DRW_Trace* ent );
bool writeSolid( DRW_Solid* ent );
bool write3dface( DRW_3Dface* ent );
bool writeLWPolyline( DRW_LWPolyline* ent );
bool writePolyline( DRW_Polyline* ent );
bool writeSpline( DRW_Spline* ent );
bool writeBlockRecord( std::string name );
bool writeBlock( DRW_Block* ent );
bool writeInsert( DRW_Insert* ent );
bool writeMText( DRW_MText* ent );
bool writeText( DRW_Text* ent );
bool writeHatch( DRW_Hatch* ent );
bool writeViewport( DRW_Viewport* ent );
DRW_ImageDef* writeImage( DRW_Image* ent, std::string name );
bool writeLeader( DRW_Leader* ent );
bool writeDimension( DRW_Dimension* ent );
void setEllipseParts( int parts ) { elParts = parts; } /*!< set parts munber when convert ellipse to polyline */
private:
// / used by read() to parse the content of the file
bool processDxf();
bool processHeader();
bool processTables();
bool processBlocks();
bool processBlock();
bool processEntities( bool isblock );
bool processObjects();
bool processLType();
bool processLayer();
bool processDimStyle();
bool processTextStyle();
bool processVports();
bool processPoint();
bool processLine();
bool processRay();
bool processXline();
bool processCircle();
bool processArc();
bool processEllipse();
bool processTrace();
bool processSolid();
bool processInsert();
bool processLWPolyline();
bool processPolyline();
bool processVertex( DRW_Polyline* pl );
bool processText();
bool processMText();
bool processHatch();
bool processSpline();
bool process3dface();
bool processViewport();
bool processImage();
bool processImageDef();
bool processDimension();
bool processLeader();
// bool writeHeader();
bool writeEntity( DRW_Entity* ent );
bool writeTables();
bool writeBlocks();
bool writeObjects();
std::string toHexStr( int n );
private:
DRW::Version version;
std::string fileName;
std::string codePage;
bool binary;
dxfReader* reader;
dxfWriter* writer;
DRW_Interface* iface;
DRW_Header header;
// int section;
string nextentity;
int entCount;
bool wlayer0;
bool dimstyleStd;
bool applyExt;
bool writingBlock;
int elParts; /*!< parts munber when convert ellipse to polyline */
std::map<std::string, int> blockMap;
std::vector<DRW_ImageDef*> imageDef; /*!< imageDef list */
int currHandle;
};
#endif // LIBDXFRW_H
...@@ -26,6 +26,8 @@ include_directories( ...@@ -26,6 +26,8 @@ include_directories(
../common ../common
../polygon ../polygon
../common/dialogs ../common/dialogs
../lib_dxf
./import_dxf
${INC_AFTER} ${INC_AFTER}
) )
...@@ -114,6 +116,11 @@ set( PCBNEW_DIALOGS ...@@ -114,6 +116,11 @@ set( PCBNEW_DIALOGS
dialogs/dialog_footprint_wizard_list.cpp dialogs/dialog_footprint_wizard_list.cpp
) )
set( PCBNEW_IMPORT_DXF
import_dxf/dialog_dxf_import.cpp
import_dxf/dxf2brd_items.cpp
)
set( PCBNEW_AUTOROUTER_SRCS set( PCBNEW_AUTOROUTER_SRCS
autorouter/automove.cpp autorouter/automove.cpp
autorouter/autoplac.cpp autorouter/autoplac.cpp
...@@ -145,6 +152,7 @@ set( PCBNEW_CLASS_SRCS ...@@ -145,6 +152,7 @@ set( PCBNEW_CLASS_SRCS
cross-probing.cpp cross-probing.cpp
deltrack.cpp deltrack.cpp
${PCBNEW_DIALOGS} ${PCBNEW_DIALOGS}
${PCBNEW_IMPORT_DXF}
dragsegm.cpp dragsegm.cpp
drc.cpp drc.cpp
drc_clearance_test_functions.cpp drc_clearance_test_functions.cpp
...@@ -347,6 +355,7 @@ if( KICAD_SCRIPTING_MODULES ) ...@@ -347,6 +355,7 @@ if( KICAD_SCRIPTING_MODULES )
pcbcommon pcbcommon
common common
pcad2kicadpcb pcad2kicadpcb
lib_dxf
${GITHUB_PLUGIN_LIBRARIES} ${GITHUB_PLUGIN_LIBRARIES}
polygon polygon
bitmaps bitmaps
...@@ -515,6 +524,7 @@ target_link_libraries( pcbnew ...@@ -515,6 +524,7 @@ target_link_libraries( pcbnew
pcad2kicadpcb pcad2kicadpcb
polygon polygon
bitmaps bitmaps
lib_dxf
${GITHUB_PLUGIN_LIBRARIES} ${GITHUB_PLUGIN_LIBRARIES}
${wxWidgets_LIBRARIES} ${wxWidgets_LIBRARIES}
${OPENGL_LIBRARIES} ${OPENGL_LIBRARIES}
......
...@@ -51,10 +51,9 @@ ...@@ -51,10 +51,9 @@
#include <class_pcb_text.h> #include <class_pcb_text.h>
#include <modview_frame.h> #include <modview_frame.h>
#include <class_pcb_layer_box_selector.h> #include <class_pcb_layer_box_selector.h>
#include <dialog_drc.h> #include <dialog_drc.h>
#include <dialog_global_edit_tracks_and_vias.h> #include <dialog_global_edit_tracks_and_vias.h>
#include <invoke_pcb_dialog.h>
// Handles the selection of command events. // Handles the selection of command events.
void PCB_EDIT_FRAME::Process_Special_Functions( wxCommandEvent& event ) void PCB_EDIT_FRAME::Process_Special_Functions( wxCommandEvent& event )
...@@ -1185,6 +1184,11 @@ void PCB_EDIT_FRAME::Process_Special_Functions( wxCommandEvent& event ) ...@@ -1185,6 +1184,11 @@ void PCB_EDIT_FRAME::Process_Special_Functions( wxCommandEvent& event )
ArchiveModulesOnBoard( wxEmptyString, false ); ArchiveModulesOnBoard( wxEmptyString, false );
break; break;
case ID_GEN_IMPORT_DXF_FILE:
InvokeDXFDialogImport( this );
m_canvas->Refresh();
break;
default: default:
wxString msg; wxString msg;
msg.Printf( wxT( "PCB_EDIT_FRAME::Process_Special_Functions() unknown event id %d" ), msg.Printf( wxT( "PCB_EDIT_FRAME::Process_Special_Functions() unknown event id %d" ),
......
#include <dxf2brd_items.h>
#include <wxPcbStruct.h>
#include <convert_from_iu.h>
bool InvokeDXFDialogImport( PCB_EDIT_FRAME* aCaller )
{
wxFileDialog dlg( aCaller,
wxT( "Open File" ),
wxEmptyString, wxEmptyString,
wxT( "dxf Files (*.dxf)|*.dxf|*.DXF" ),
wxFD_OPEN|wxFD_FILE_MUST_EXIST );
dlg.ShowModal();
wxString fileName = dlg.GetPath();
if( !fileName.IsEmpty() )
{
BOARD * brd = aCaller->GetBoard();
DXF2BRD_CONVERTER dxf_importer;
// Set coordinates offset for import (offset is given in mm)
double offsetY = - aCaller->GetPageSizeIU().y * MM_PER_IU;
dxf_importer.SetOffset( 0.0, offsetY );
dxf_importer.SetBrdLayer( DRAW_N );
dxf_importer.ImportDxfFile( fileName, brd );
}
return true;
}
/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2013 Jean-Pierre Charras, jp.charras at wanadoo.fr
* Copyright (C) 1992-2013 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it 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.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
// The DXF reader lib (libdxfrw) comes from LibreCAD project, a 2D CAD program
// libdxfrw can be found on http://sourceforge.net/projects/libdxfrw/
// or (latest sources) on
// https://github.com/LibreCAD/LibreCAD/tree/master/libraries/libdxfrw/src
//
// There is no doc to use it, but have a look to
// https://github.com/LibreCAD/LibreCAD/blob/master/librecad/src/lib/filters/rs_filterdxf.cpp
// and https://github.com/LibreCAD/LibreCAD/blob/master/librecad/src/lib/filters/rs_filterdxf.h
// Each time a dxf entity is read, a "call back" fuction is called
// like void DXF2BRD_CONVERTER::addLine( const DRW_Line& data ) when a line is read.
// this function just add the BOARD entity from dxf parameters (start and end point ...)
#include "libdxfrw.h"
#include "dxf2brd_items.h"
#include <wx/arrstr.h>
#include <wx/regex.h>
#include <trigo.h>
#include <class_board.h>
#include <class_drawsegment.h>
#include <class_pcb_text.h>
DXF2BRD_CONVERTER::DXF2BRD_CONVERTER() : DRW_Interface()
{
m_xOffset = 0.0; // X coord offset for conversion (in mm)
m_yOffset = 0.0; // Y coord offset for conversion (in mm)
m_Dfx2mm = 1.0; // The scale factor to convert DXF units to mm
m_dxf = NULL;
m_brd = NULL;
m_version = 0;
m_defaultThickness = 0.1;
m_brdLayer = DRAW_N;
}
DXF2BRD_CONVERTER::~DXF2BRD_CONVERTER()
{
}
// coordinate conversions from dxf to internal units
int DXF2BRD_CONVERTER::mapX( double aDxfCoordX )
{
return Millimeter2iu( m_xOffset + (aDxfCoordX * m_Dfx2mm) );
}
int DXF2BRD_CONVERTER::mapY( double aDxfCoordY )
{
return Millimeter2iu( -m_yOffset - (aDxfCoordY * m_Dfx2mm) );
}
int DXF2BRD_CONVERTER::mapDim( double aDxfValue )
{
return Millimeter2iu( aDxfValue * m_Dfx2mm );
}
/**
* Implementation of the method used for communicate
* with this filter.
*
* @param aFile = the full filename.
* @param aLayersList = where to store the list of layer names
*/
bool DXF2BRD_CONVERTER::ImportDxfFile( const wxString& aFile, BOARD* aBoard )
{
m_brd = aBoard;
m_dxf = new dxfRW( aFile.ToUTF8() );
bool success = m_dxf->read( this, true );
if( success==false )
{
return false;
}
delete m_dxf;
m_dxf = NULL;
return true;
}
/**
* Implementation of the method which handles layers.
*/
void DXF2BRD_CONVERTER::addLayer( const DRW_Layer& data )
{
#if 0
wxString name = wxString::FromUTF8( data.name.c_str() );
wxLogMessage( name );
#endif
}
/*
* Import line entities.
*/
void DXF2BRD_CONVERTER::addLine( const DRW_Line& data )
{
DRAWSEGMENT* segm = new DRAWSEGMENT( m_brd );
segm->SetLayer( m_brdLayer );
wxPoint start( mapX( data.basePoint.x ), mapY( data.basePoint.y ) );
segm->SetStart( start );
wxPoint end( mapX( data.secPoint.x ), mapY( data.secPoint.y ) );
segm->SetEnd( end );
segm->SetWidth( mapDim( data.thickness == 0 ? m_defaultThickness
: data.thickness ) );
m_brd->Add( segm );
}
/*
* Import Circle entities.
*/
void DXF2BRD_CONVERTER::addCircle( const DRW_Circle& data )
{
DRAWSEGMENT* segm = new DRAWSEGMENT( m_brd );
segm->SetLayer( m_brdLayer );
segm->SetShape( S_CIRCLE );
wxPoint center( mapX( data.basePoint.x ), mapY( data.basePoint.y ) );
segm->SetPosition( center );
wxPoint circle_start( mapX( data.basePoint.x + data.radious ),
mapY( data.basePoint.y ) );
segm->SetEnd( circle_start );
segm->SetWidth( mapDim( data.thickness == 0 ? m_defaultThickness
: data.thickness ) );
m_brd->Add( segm );
}
/*
* Import Arc entities.
*/
void DXF2BRD_CONVERTER::addArc( const DRW_Arc& data )
{
DRAWSEGMENT* segm = new DRAWSEGMENT( m_brd );
segm->SetLayer( m_brdLayer );
segm->SetShape( S_ARC );
// Init arc centre:
wxPoint center( mapX( data.basePoint.x ), mapY( data.basePoint.y ) );
segm->SetPosition( center );
// Init arc start point
double arcStartx = data.radious;
double arcStarty = 0;
RotatePoint( &arcStartx, &arcStarty, -RAD2DECIDEG( data.staangle ) );
wxPoint arcStart( mapX( arcStartx + data.basePoint.x ),
mapY( arcStarty + data.basePoint.y ) );
segm->SetEnd( arcStart );
// calculate arc angle (arcs are CCW, and should be < 0 in Pcbnew)
double angle = -RAD2DECIDEG( data.endangle - data.staangle );
if( angle > 0.0 )
angle -= 3600.0;
segm->SetAngle( angle );
segm->SetWidth( mapDim( data.thickness == 0 ? m_defaultThickness
: data.thickness ) );
m_brd->Add( segm );
}
/**
* Import texts (TEXT).
*/
void DXF2BRD_CONVERTER::addText(const DRW_Text& data)
{
TEXTE_PCB* pcb_text = new TEXTE_PCB( m_brd );
pcb_text->SetLayer( m_brdLayer );
wxPoint refPoint( mapX(data.basePoint.x), mapY(data.basePoint.y) );
wxPoint secPoint( mapX(data.secPoint.x), mapY(data.secPoint.y) );
if (data.alignV !=0 || data.alignH !=0 ||data.alignH ==DRW_Text::HMiddle)
{
if (data.alignH !=DRW_Text::HAligned && data.alignH !=DRW_Text::HFit)
{
wxPoint tmp = secPoint;
secPoint = refPoint;
refPoint = tmp;
}
}
switch( data.alignV )
{
case DRW_Text::VBaseLine: // Top
pcb_text->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case DRW_Text::VBottom:
pcb_text->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
case DRW_Text::VMiddle:
pcb_text->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
break;
case DRW_Text::VTop:
pcb_text->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
}
switch( data.alignH )
{
case DRW_Text::HLeft:
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case DRW_Text::HCenter:
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case DRW_Text::HRight:
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case DRW_Text::HAligned:
// no equivalent options in text pcb.
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case DRW_Text::HMiddle:
// no equivalent options in text pcb.
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case DRW_Text::HFit:
// no equivalent options in text pcb.
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
}
#if 0
wxString sty = wxString::FromUTF8(data.style.c_str());
sty=sty.ToLower();
if (data.textgen==2)
{
// Text dir = left to right;
} else if (data.textgen==4)
{
/ Text dir = top to bottom;
} else
{
}
#endif
wxString text = toNativeString( wxString::FromUTF8( data.text.c_str() ) );
pcb_text->SetTextPosition( refPoint );
pcb_text->SetOrientation( data.angle * 10 );
// The 0.8 factor gives a better height/width ratio with our font
pcb_text->SetWidth( mapDim( data.height * 0.8 ) );
pcb_text->SetHeight( mapDim( data.height ) );
pcb_text->SetThickness( mapDim( data.thickness == 0 ? m_defaultThickness
: data.thickness ) );
pcb_text->SetText( text );
m_brd->Add( pcb_text );
}
/**
* Import multi line texts (MTEXT).
*/
void DXF2BRD_CONVERTER::addMText( const DRW_MText& data )
{
wxString text = toNativeString( wxString::FromUTF8( data.text.c_str() ) );
wxString attrib, tmp;
/* Some texts start by '\' and have formating chars (font name, font option...)
* ending with ';'
* Here are some mtext formatting codes:
* Format code Purpose
* \0...\o Turns overline on and off
* \L...\l Turns underline on and off
* \~ Inserts a nonbreaking space
\\ Inserts a backslash
\\\{...\} Inserts an opening and closing brace
\\ \File name; Changes to the specified font file
\\ \Hvalue; Changes to the text height specified in drawing units
\\ \Hvaluex; Changes the text height to a multiple of the current text height
\\ \S...^...; Stacks the subsequent text at the \, #, or ^ symbol
\\ \Tvalue; Adjusts the space between characters, from.75 to 4 times
\\ \Qangle; Changes obliquing angle
\\ \Wvalue; Changes width factor to produce wide text
\\ \A Sets the alignment value; valid values: 0, 1, 2 (bottom, center, top) while( text.StartsWith( wxT("\\") ) )
*/
while( text.StartsWith( wxT( "\\" ) ) )
{
attrib << text.BeforeFirst( ';' );
tmp = text.AfterFirst( ';' );
text = tmp;
}
TEXTE_PCB* pcb_text = new TEXTE_PCB( m_brd );
pcb_text->SetLayer( m_brdLayer );
wxPoint textpos( mapX( data.basePoint.x ), mapY( data.basePoint.y ) );
pcb_text->SetTextPosition( textpos );
pcb_text->SetOrientation( data.angle * 10 );
// The 0.8 factor gives a better height/width ratio with our font
pcb_text->SetWidth( mapDim( data.height * 0.8 ) );
pcb_text->SetHeight( mapDim( data.height ) );
pcb_text->SetThickness( mapDim( data.thickness == 0 ? m_defaultThickness
: data.thickness ) );
pcb_text->SetText( text );
// Initialize text justifications:
if( data.textgen <= 3 )
{
pcb_text->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
}
else if( data.textgen <= 6 )
{
pcb_text->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
}
else
{
pcb_text->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
}
if( data.textgen % 3 == 1 )
{
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
}
else if( data.textgen % 3 == 2 )
{
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
}
else
{
pcb_text->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
}
#if 0 // These setting have no mening in Pcbnew
if( data.alignH==1 )
{
// Text is left to right;
}
else if( data.alignH == 3 )
{
// Text is top to bottom;
}
else
{
// use ByStyle;
}
if( data.alignV==1 )
{
// use AtLeast;
}
else
{
// useExact;
}
#endif
m_brd->Add( pcb_text );
}
/**
* Sets the header variables from the DXF file.
*/
void DXF2BRD_CONVERTER::addHeader( const DRW_Header* data )
{
std::map<std::string, DRW_Variant*>::const_iterator it;
for( it = data->vars.begin(); it != data->vars.end(); it++ )
{
std::string key = ( (*it).first ).c_str();
if( key == "$DWGCODEPAGE" )
{
DRW_Variant* var = (*it).second;
m_codePage = ( *var->content.s );
}
}
}
/**
* Converts a native unicode string into a DXF encoded string.
*
* DXF endoding includes the following special sequences:
* - %%%c for a diameter sign
* - %%%d for a degree sign
* - %%%p for a plus/minus sign
*/
wxString DXF2BRD_CONVERTER::toDxfString( const wxString& str )
{
wxString res;
int j = 0;
for( unsigned i = 0; i<str.length(); ++i )
{
int c = str[i];
if( c>175 || c<11 )
{
res.append( str.Mid( j, i - j ) );
j = i;
switch( c )
{
case 0x0A:
res += wxT("\\P");
break;
// diameter:
#ifdef __WINDOWS_
// windows, as always, is special.
case 0x00D8:
#else
case 0x2205:
#endif
res += wxT("%%C");
break;
// degree:
case 0x00B0:
res += wxT("%%D");
break;
// plus/minus
case 0x00B1:
res += wxT("%%P");
break;
default:
j--;
break;
}
j++;
}
}
res.append( str.Mid( j ) );
return res;
}
/**
* Converts a DXF encoded string into a native Unicode string.
*/
wxString DXF2BRD_CONVERTER::toNativeString( const wxString& data )
{
wxString res;
// Ignore font tags:
int j = 0;
for( unsigned i = 0; i<data.length(); ++i )
{
if( data[ i ] == 0x7B ) // is '{' ?
{
if( data[ i + 1 ] == 0x5c && data[ i + 2 ] == 0x66 ) // is "\f" ?
{
// found font tag, append parsed part
res.append( data.Mid( j, i - j ) );
// skip to ';'
for( unsigned k = i + 3; k < data.length(); ++k )
{
if( data[ k ] == 0x3B )
{
i = j = ++k;
break;
}
}
// add to '}'
for( unsigned k = i; k<data.length(); ++k )
{
if( data[ k ] == 0x7D )
{
res.append( data.Mid( i, k - i ) );
i = j = ++k;
break;
}
}
}
}
}
res.append( data.Mid( j ) );
#if 1
wxRegEx regexp;
// Line feed:
regexp.Compile( wxT( "\\\\P" ) );
regexp.Replace( &res, wxT( "\n" ) );
// Space:
regexp.Compile( wxT( "\\\\~" ) );
regexp.Replace( &res, wxT( " " ) );
// diameter:
regexp.Compile( wxT( "%%[cC]" ) );
#ifdef __WINDOWS__
// windows, as always, is special.
regexp.Replace( &res, wxChar( 0xD8 ) );
#else
// Empty_set, diameter is 0x2300
regexp.Replace( &res, wxChar( 0x2205 ) );
#endif
// degree:
regexp.Compile( wxT( "%%[dD]" ) );
regexp.Replace( &res, wxChar( 0x00B0 ) );
// plus/minus
regexp.Compile( wxT( "%%[pP]" ) );
regexp.Replace( &res, wxChar( 0x00B1 ) );
#endif
return res;
}
void DXF2BRD_CONVERTER::addTextStyle( const DRW_Textstyle& data )
{
// TODO
}
/****************************************************************************
**
** This file comes from the LibreCAD project, a 2D CAD program
**
** Copyright (C) 2011 Rallaz, rallazz@gmail.com
** Copyright (C) 2010 R. van Twisk (librecad@rvt.dds.nl)
**
**
** This file may be distributed and/or modified 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.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program; if not, write to the Free Software
** Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
**
**********************************************************************/
#ifndef FILTERDXFRW_H
#define FILTERDXFRW_H
#include "drw_interface.h"
#include "wx/wx.h"
class dxfRW;
class BOARD;
/**
* This format filter class can import and export DXF files.
* It depends on the dxflib library.
*
* @author Rallaz
*/
class DXF2BRD_CONVERTER : public DRW_Interface
{
private:
BOARD * m_brd;
double m_xOffset; // X coord offset for conversion (in mm)
double m_yOffset; // Y coord offset for conversion (in mm)
double m_defaultThickness; // default line thickness for conversion (in dxf units)
double m_Dfx2mm; // The scale factor to convert DXF units to mm
int m_brdLayer; // The board layer to place imported dfx items
int m_version;
std::string m_codePage;
dxfRW* m_dxf;
public:
DXF2BRD_CONVERTER();
~DXF2BRD_CONVERTER();
/**
* Set the coordinate offset between the importede dxf items
* and Pcbnew.
* because dxf files have the Y axis from bottom to top;
* aOffsetX = 0, and aOffsetY = - vertical page size to import a full page
* @param aOffsetX = the X offset in mm
* @param aOffsetY = the Y offset in mm
*/
void SetOffset( double aOffsetX, double aOffsetY )
{
m_xOffset =aOffsetX;
m_yOffset =aOffsetY;
}
/**
* Set the layer number to import dxf items.
* the layer should be a techicanl layer, not a copper layer
*/
void SetBrdLayer( int aBrdLayer ) { m_brdLayer = aBrdLayer; }
bool ImportDxfFile( const wxString& aFile, BOARD * aBoard );
private:
// coordinate conversions from dxf to internal units
int mapX( double aDxfCoordX );
int mapY( double aDxfCoordY );
int mapDim( double aDxfValue );
// Methods from DRW_CreationInterface:
// They are "call back" fonctions, called when the corresponding object
// is read in dxf file
// Depending of the application, they can do something or not
virtual void addHeader( const DRW_Header* data );
virtual void addLType( const DRW_LType& data ){}
virtual void addLayer( const DRW_Layer& data );
virtual void addDimStyle( const DRW_Dimstyle& data ){}
virtual void addBlock(const DRW_Block& data ){}
virtual void endBlock(){}
virtual void addPoint(const DRW_Point& data ){}
virtual void addLine(const DRW_Line& data);
virtual void addRay(const DRW_Ray& data ){}
virtual void addXline(const DRW_Xline& data ){}
virtual void addCircle(const DRW_Circle& data );
virtual void addArc(const DRW_Arc& data );
virtual void addEllipse(const DRW_Ellipse& data ){}
virtual void addLWPolyline(const DRW_LWPolyline& data ){}
virtual void addText(const DRW_Text& data );
virtual void addPolyline(const DRW_Polyline& data ){}
virtual void addSpline(const DRW_Spline* data ){}
virtual void addKnot(const DRW_Entity&) {}
virtual void addInsert(const DRW_Insert& data ){}
virtual void addTrace(const DRW_Trace& data ){}
virtual void addSolid(const DRW_Solid& data ){}
virtual void addMText(const DRW_MText& data);
virtual void addDimAlign(const DRW_DimAligned *data ){}
virtual void addDimLinear(const DRW_DimLinear *data ){}
virtual void addDimRadial(const DRW_DimRadial *data ){}
virtual void addDimDiametric(const DRW_DimDiametric *data ){}
virtual void addDimAngular(const DRW_DimAngular *data ){}
virtual void addDimAngular3P(const DRW_DimAngular3p *data ){}
virtual void addDimOrdinate(const DRW_DimOrdinate *data ){}
virtual void addLeader(const DRW_Leader *data ){}
virtual void addHatch(const DRW_Hatch* data ){}
virtual void addImage(const DRW_Image* data ){}
virtual void linkImage(const DRW_ImageDef* data ){}
virtual void add3dFace(const DRW_3Dface& data ){}
virtual void addComment(const char*){}
virtual void addVport(const DRW_Vport& data) {}
virtual void addTextStyle(const DRW_Textstyle& data);
virtual void addViewport(const DRW_Viewport& data) {}
virtual void setBlock(const int handle) {}
static wxString toDxfString(const wxString& str);
static wxString toNativeString(const wxString& data);
// These functions are not used in Kicad.
// But because they are virtual pure in DRW_Interface, they should be defined
virtual void writeTextstyles() {}
virtual void writeVports() {}
virtual void writeHeader(DRW_Header& data) {}
virtual void writeEntities() {}
virtual void writeLTypes() {}
virtual void writeLayers() {}
virtual void writeBlockRecords() {}
virtual void writeBlocks() {}
virtual void writeDimstyles() {}
void writeLine();
void writeMtext();
};
#endif // FILTERDXFRW_H
/**
* @file invoke_pcb_dialog.h
*/
/* /* This program source code file is part of KiCad, a free EDA CAD application.
* This program source code file is part of KiCad, a free EDA CAD application.
* *
* Copyright (C) 2013 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com> * Copyright (C) 2013 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
* Copyright (C) 2013 KiCad Developers, see change_log.txt for contributors. * Copyright (C) 2013 KiCad Developers, see change_log.txt for contributors.
...@@ -75,5 +77,14 @@ int InvokePcbLibTableEditor( wxTopLevelWindow* aCaller, FP_LIB_TABLE* aGlobal, F ...@@ -75,5 +77,14 @@ int InvokePcbLibTableEditor( wxTopLevelWindow* aCaller, FP_LIB_TABLE* aGlobal, F
void InvokePluginOptionsEditor( wxTopLevelWindow* aCaller, void InvokePluginOptionsEditor( wxTopLevelWindow* aCaller,
const wxString& aNickname, const wxString& aOptions, wxString* aResult ); const wxString& aNickname, const wxString& aOptions, wxString* aResult );
/**
* Function InvokePcbLibTableEditor
* shows the modal DIALOG_FP_LIB_TABLE for purposes of editing two lib tables.
*
* @param aCaller is the wxTopLevelWindow which is invoking the dialog.
* @return true if the ilport was made.
*/
bool InvokeDXFDialogImport( PCB_EDIT_FRAME* aCaller );
#endif // INVOKE_A_DIALOG_H_ #endif // INVOKE_A_DIALOG_H_
...@@ -174,6 +174,11 @@ void PCB_EDIT_FRAME::ReCreateMenuBar() ...@@ -174,6 +174,11 @@ void PCB_EDIT_FRAME::ReCreateMenuBar()
_( "Import a routed \"Specctra Session\" (*.ses) file" ), _( "Import a routed \"Specctra Session\" (*.ses) file" ),
KiBitmap( import_xpm ) ); KiBitmap( import_xpm ) );
AddMenuItem( submenuImport, ID_GEN_IMPORT_DXF_FILE,
_( "&DXF File" ),
_( "Import a 2D Drawing DXF file to Pcbnew on the Drawings layer" ),
KiBitmap( import_xpm ) );
AddMenuItem( filesMenu, submenuImport, AddMenuItem( filesMenu, submenuImport,
ID_GEN_IMPORT_FILE, _( "&Import" ), ID_GEN_IMPORT_FILE, _( "&Import" ),
_( "Import files" ), KiBitmap( import_xpm ) ); _( "Import files" ), KiBitmap( import_xpm ) );
......
...@@ -105,6 +105,7 @@ BEGIN_EVENT_TABLE( PCB_EDIT_FRAME, PCB_BASE_FRAME ) ...@@ -105,6 +105,7 @@ BEGIN_EVENT_TABLE( PCB_EDIT_FRAME, PCB_BASE_FRAME )
EVT_MENU( ID_GEN_IMPORT_SPECCTRA_SESSION,PCB_EDIT_FRAME::ImportSpecctraSession ) EVT_MENU( ID_GEN_IMPORT_SPECCTRA_SESSION,PCB_EDIT_FRAME::ImportSpecctraSession )
EVT_MENU( ID_GEN_IMPORT_SPECCTRA_DESIGN, PCB_EDIT_FRAME::ImportSpecctraDesign ) EVT_MENU( ID_GEN_IMPORT_SPECCTRA_DESIGN, PCB_EDIT_FRAME::ImportSpecctraDesign )
EVT_MENU( ID_GEN_IMPORT_DXF_FILE, PCB_EDIT_FRAME::Process_Special_Functions )
EVT_MENU( ID_MENU_ARCHIVE_NEW_MODULES, PCB_EDIT_FRAME::Process_Special_Functions ) EVT_MENU( ID_MENU_ARCHIVE_NEW_MODULES, PCB_EDIT_FRAME::Process_Special_Functions )
EVT_MENU( ID_MENU_ARCHIVE_ALL_MODULES, PCB_EDIT_FRAME::Process_Special_Functions ) EVT_MENU( ID_MENU_ARCHIVE_ALL_MODULES, PCB_EDIT_FRAME::Process_Special_Functions )
......
...@@ -252,6 +252,7 @@ enum pcbnew_ids ...@@ -252,6 +252,7 @@ enum pcbnew_ids
ID_GEN_EXPORT_FILE_MODULE_REPORT, ID_GEN_EXPORT_FILE_MODULE_REPORT,
ID_GEN_IMPORT_SPECCTRA_SESSION, ID_GEN_IMPORT_SPECCTRA_SESSION,
ID_GEN_IMPORT_SPECCTRA_DESIGN, ID_GEN_IMPORT_SPECCTRA_DESIGN,
ID_GEN_IMPORT_DXF_FILE,
ID_TOOLBARH_PCB_MODE_MODULE, ID_TOOLBARH_PCB_MODE_MODULE,
ID_TOOLBARH_PCB_MODE_TRACKS, ID_TOOLBARH_PCB_MODE_TRACKS,
......
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