/******************************************************************************
** libDXFrw - Library to read/write DXF files (ascii & binary) **
** **
** Copyright (C) 2011-2015 José F. Soriano, rallazz@gmail.com **
** **
** This library is free software, licensed under the terms of the GNU **
** General Public License as published by the Free Software Foundation, **
** either version 2 of the License, or (at your option) any later version. **
** You should have received a copy of the GNU General Public License **
** along with this program. If not, see . **
******************************************************************************/
#include
#include "drw_entities.h"
#include "intern/dxfreader.h"
#include "intern/drw_dbg.h"
#include "../vmisc/diagnostic.h"
//! Calculate arbitary axis
/*!
* Calculate arbitary axis for apply extrusions
* @author Rallaz
*/
void DRW_Entity::calculateAxis(DRW_Coord extPoint){
//Follow the arbitrary DXF definitions for extrusion axes.
if (fabs(extPoint.x) < 0.015625 && fabs(extPoint.y) < 0.015625) {
//If we get here, implement Ax = Wy x N where Wy is [0,1,0] per the DXF spec.
//The cross product works out to Wy.y*N.z-Wy.z*N.y, Wy.z*N.x-Wy.x*N.z, Wy.x*N.y-Wy.y*N.x
//Factoring in the fixed values for Wy gives N.z,0,-N.x
extAxisX.x = extPoint.z;
extAxisX.y = 0;
extAxisX.z = -extPoint.x;
} else {
//Otherwise, implement Ax = Wz x N where Wz is [0,0,1] per the DXF spec.
//The cross product works out to Wz.y*N.z-Wz.z*N.y, Wz.z*N.x-Wz.x*N.z, Wz.x*N.y-Wz.y*N.x
//Factoring in the fixed values for Wz gives -N.y,N.x,0.
extAxisX.x = -extPoint.y;
extAxisX.y = extPoint.x;
extAxisX.z = 0;
}
extAxisX.unitize();
//Ay = N x Ax
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) const{
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;
}
bool DRW_Entity::parseCode(int code, dxfReader *reader){
switch (code) {
case 5:
handle = static_cast(reader->getHandleString());
break;
case 330:
parentHandle = static_cast(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 = static_cast(reader->getInt32());
break;
case 102:
parseDxfGroups(code, reader);
break;
case 1000:
case 1001:
case 1002:
case 1003:
case 1004:
case 1005:
extData.push_back(new DRW_Variant(code, reader->getString()));
break;
case 1010:
case 1011:
case 1012:
case 1013:
curr = new DRW_Variant();
curr->addCoord();
curr->setCoordX(reader->getDouble());
curr->code = code;
extData.push_back(curr);
break;
case 1020:
case 1021:
case 1022:
case 1023:
if (curr)
curr->setCoordY(reader->getDouble());
break;
case 1030:
case 1031:
case 1032:
case 1033:
if (curr)
curr->setCoordZ(reader->getDouble());
curr=nullptr;
break;
case 1040:
case 1041:
case 1042:
extData.push_back(new DRW_Variant(code, reader->getDouble() ));
break;
case 1070:
case 1071:
extData.push_back(new DRW_Variant(code, reader->getInt32() ));
break;
default:
break;
}
return true;
}
//parses dxf 102 groups to read entity
bool DRW_Entity::parseDxfGroups(int code, dxfReader *reader){
std::list ls;
DRW_Variant curr;
int nc;
std::string appName= reader->getString();
if (!appName.empty() && appName.at(0)== '{'){
curr.addString(appName.substr(1, static_cast(appName.size()-1)));
curr.code = code;
ls.push_back(curr);
while (code !=102 && appName.at(0)== '}'){
reader->readRec(&nc);
curr.code = code;
if (code == 330 || code == 360)
curr.addInt(reader->getHandleString());
else {
switch (reader->type) {
case dxfReader::STRING:
curr.addString(reader->getString());
break;
case dxfReader::INT32:
case dxfReader::INT64:
curr.addInt(reader->getInt32());
break;
case dxfReader::DOUBLE:
curr.addDouble(reader->getDouble());
break;
case dxfReader::BOOL:
curr.addInt(reader->getInt32());
break;
default:
break;
}
}
ls.push_back(curr);
}
}
appData.push_back(ls);
return true;
}
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_ASTMNotch::parseCode(int code, dxfReader *reader)
{
switch (code) {
case 50:
angle = reader->getDouble();
break;
default:
DRW_Point::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) {
//NOTE: Commenting these out causes the the arcs being tested to be located
//on the other side of the y axis (all x dimensions are negated).
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::applyExtrusion(){
DRW_Circle::applyExtrusion();
if(haveExtrusion){
// If the extrusion vector has a z value less than 0, the angles for the arc
// have to be mirrored since DXF files use the right hand rule.
// Note that the following code only handles the special case where there is a 2D
// drawing with the z axis heading into the paper (or rather screen). An arbitrary
// extrusion axis (with x and y values greater than 1/64) may still have issues.
if (fabs(extPoint.x) < 0.015625 && fabs(extPoint.y) < 0.015625 && extPoint.z < 0.0) {
staangle=M_PI-staangle;
endangle=M_PI-endangle;
double temp = staangle;
staangle=endangle;
endangle=temp;
}
}
}
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 (DRW_FuzzyComparePossibleNulls(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;
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 = static_cast(curAngle / incAngle);
do {
if (curAngle > endparam) {
curAngle = endparam;
i = parts+2;
}
double cosCurr = cos(curAngle);
double 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 (iflags = 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();
angle = angle/ARAD; //convert to radian
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; ix, 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(static_cast(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 = static_cast(reader->getInt32());
break;
case 73:
alignV = static_cast(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;
case 71: {
// Attachment point
Attach a = static_cast(reader->getInt32());
QT_WARNING_PUSH
QT_WARNING_DISABLE_GCC("-Wswitch-default")
switch(a) {
case TopLeft:
alignV = VTop;
alignH = HLeft;
break;
case TopCenter:
alignV = VTop;
alignH = HCenter;
break;
case TopRight:
alignV = VTop;
alignH = HRight;
break;
case MiddleLeft:
alignV = VMiddle;
alignH = HLeft;
break;
case MiddleCenter:
alignV = VMiddle;
alignH = HCenter;
break;
case MiddleRight:
alignV = VMiddle;
alignH = HRight;
break;
case BottomLeft:
alignV = VBottom;
alignH = HLeft;
break;
case BottomCenter:
alignV = VBottom;
alignH = HCenter;
break;
case BottomRight:
alignV = VBottom;
alignH = HRight;
break;
}
QT_WARNING_POP
} break;
case 72:
// To prevent redirection to DRW_Text::parseCode.
// This code meaning is different for MTEXT.
// Actually: Drawing direction
break;
case 73:
// To prevent redirection to DRW_Text::parseCode.
// This code meaning is different for MTEXT.
// Actually: Mtext line spacing style
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(static_cast(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:
normalVec.x = reader->getDouble();
break;
case 220:
normalVec.y = reader->getDouble();
break;
case 230:
normalVec.z = reader->getDouble();
break;
case 12:
tgStart.x = reader->getDouble();
break;
case 22:
tgStart.y = reader->getDouble();
break;
case 32:
tgStart.z = reader->getDouble();
break;
case 13:
tgEnd.x = reader->getDouble();
break;
case 23:
tgEnd.y = reader->getDouble();
break;
case 33:
tgEnd.z = 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:
weightlist.push_back(reader->getDouble());
break;
default:
DRW_Entity::parseCode(code, reader);
break;
}
}
void DRW_Image::parseCode(int code, dxfReader *reader){
switch (code) {
case 12:
vVector.x = reader->getDouble();
break;
case 22:
vVector.y = reader->getDouble();
break;
case 32:
vVector.z = reader->getDouble();
break;
case 13:
sizeu = reader->getDouble();
break;
case 23:
sizev = reader->getDouble();
break;
case 340:
ref = static_cast(reader->getHandleString());
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 42:
actual = reader->getDouble();
hasActual = not qFuzzyIsNull(actual);
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:
annotHandle = static_cast(reader->getHandleString());
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;
}
}