Acad::ErrorStatus PDEcone::dxfInFields(AcDbDxfFiler* filer)
{
assertWriteEnabled();
Acad::ErrorStatus es = Acad::eOk;
struct resbuf rb;
if ((PDPrimary3D::dxfInFields(filer) != Acad::eOk)
|| !filer->atSubclassData(_T("PDEcone")))
{
return filer->filerStatus();
}
// Read version number.
Adesk::UInt16 version;
filer->readItem(&rb);
if (rb.restype != AcDb::kDxfInt16) {
filer->pushBackItem();
filer->setError(Acad::eInvalidDxfCode,
_T("nError: expected object version group code %d"),
AcDb::kDxfInt16);
return filer->filerStatus();
}
else {
version = rb.resval.rint;
if (version > VERSION_PDECONE)
return Acad::eMakeMeProxy;
}
// Read the data members.
switch (version){
case (1):
while ((es == Acad::eOk) && ((es = filer->readResBuf(&rb)) == Acad::eOk)){
switch (rb.restype){
case AcDb::kDxfXCoord:
m_ptStart = asPnt3d(rb.resval.rpoint);
break;
case AcDb::kDxfXCoord+1:
m_ptEnd = asPnt3d(rb.resval.rpoint);
break;
case AcDb::kDxfNormalX:
m_vect = asVec3d(rb.resval.rpoint);
break;
case AcDb::kDxfReal:
m_dDiameter1=rb.resval.rreal;
break;
case AcDb::kDxfReal+1:
m_dDiameter2=rb.resval.rreal;
break;
default:
// An unrecognized group. Push it back so that
// the subclass can read it again.
filer->pushBackItem();
es = Acad::eEndOfFile;
break;
}
}
break;
}
#ifdef _USEAMODELER_
if(m_3dGeom.isNull())
createBody();
#endif
// At this point the es variable must contain eEndOfFile
// - either from readResBuf() or from pushback. If not,
// it indicates that an error happened and we should
// return immediately.
//
if (es != Acad::eEndOfFile)
return Acad::eInvalidResBuf;
return filer->filerStatus();
}
// Invoked by the command - POLY
//
void
polyCommand()
{
int nSides = 0;
while (nSides < 3) {
acedInitGet(INP_NNEG, "");
switch (acedGetInt("\nEnter number of sides: ", &nSides)) {
case RTNORM:
if (nSides < 3)
acutPrintf("\nNeed at least 3 sides.");
break;
default:
return;
}
}
ads_point center, startPt, normal;
if (acedGetPoint(NULL, "\nLocate center of polygon: ", center) != RTNORM)
return;
startPt[0] = center[0]; startPt[1] = center[1]; startPt[2] = center[2];
while (asPnt3d(startPt) == asPnt3d(center)) {
switch (acedGetPoint(center, "\nLocate start point of polygon: ",
startPt)) {
case RTNORM:
if (asPnt3d(center) == asPnt3d(startPt))
acutPrintf("\nPick a point different from the center.");
break;
default:
return;
}
}
char nameBuf[133];
if (acedGetString(Adesk::kTrue, "\nEnter polygon name: ", nameBuf) != RTNORM)
return;
AcDbObjectId tsId = 0;
char styleBuf[133], msg[133];
// Get default text style
struct resbuf result ;
if ( acedGetVar ("TEXTSTYLE", &result) != RTNORM ) {
acutPrintf("\nError while reading default AutoCAD text style setting");
return ;
}
strcpy (styleBuf, result.resval.rstring) ;
sprintf (msg, "\nEnter text style <%s>: ", result.resval.rstring) ;
acdbFree (result.resval.rstring) ;
if (acedGetString(Adesk::kTrue, "\nEnter text style: ", styleBuf) != RTNORM)
return;
if ( styleBuf[0] == '\0' ) {
// Get default text style
struct resbuf result ;
if ( acedGetVar ("TEXTSTYLE", &result) != RTNORM ) {
acutPrintf("\nError while reading default AutoCAD text style setting");
return ;
}
strcpy (styleBuf, result.resval.rstring) ;
acdbFree (result.resval.rstring) ;
}
if ( rx_getTextStyleId(styleBuf,
acdbHostApplicationServices()->workingDatabase(),
tsId) != Acad::eOk)
{
acutPrintf("\nInvalid text style name");
return;
}
// Set the normal to the plane of the polygon to be the same as the
// z direction of the current ucs, i.e. (0, 0, 1) since we also got the
// center and start point in the current UCS. (acedGetPoint() returns in
// the current UCS.)
normal[X] = 0.0; normal[Y] = 0.0; normal[Z] = 1.0;
acdbUcs2Wcs(normal, normal, Adesk::kTrue);
acdbUcs2Ecs(center, center,normal, Adesk::kFalse);
acdbUcs2Ecs(startPt, startPt,normal, Adesk::kFalse);
double elev = center[2];
AcGePoint2d cen = asPnt2d(center), start = asPnt2d(startPt);
AcGeVector3d norm = asVec3d(normal);
AsdkPoly* poly = new AsdkPoly;
if (poly==NULL){
acutPrintf("\nOut of memory.");
return;
}
if (poly->set(cen, start, nSides, norm, nameBuf, tsId, elev)!=Acad::eOk){
delete poly;
acutPrintf("\nCannot create AsdkPoly with given parameters.");
return;
}
poly->setDatabaseDefaults(acdbHostApplicationServices()->workingDatabase());
postToDb(poly);
}
void asdktest1 () {
//----- Select the entities
ads_name ss, en ;
if ( acedSSGet (NULL, NULL, NULL, NULL, ss) != RTNORM )
return ;
//----- Append entity IDs to the collector
long n ;
AcDbObjectId id ;
AsdkHlrCollector collector ;
collector.setDeleteState (true) ;
acedSSLength (ss, &n) ;
for ( int i =0 ; i < n ; i++ ) {
acedSSName (ss, i, en) ;
acdbGetObjectId (id, en) ;
collector.addEntity (id) ;
}
acedSSFree (ss) ;
//----- Get current viewport settings
struct resbuf rb;
acedGetVar(ACRX_T(/*NOXLATE*/"viewdir"), &rb);
ads_point dirPt;
acdbUcs2Wcs (rb.resval.rpoint, dirPt, Adesk::kTrue) ;
acedGetVar(ACRX_T(/*NOXLATE*/"target"), &rb);
ads_point tarPt;
acdbUcs2Wcs (rb.resval.rpoint, tarPt, Adesk::kFalse) ;
//----- Ask if non-visible edges should be created
int hidLines =AfxMessageBox (ACRX_T("Would you like to see hidden lines?"), MB_YESNO) ;
int honorInt =AfxMessageBox (ACRX_T("Would you like to honor internal visibility of polyface meshes or ACIS objects?"), MB_YESNO) ;
int meshSils =AfxMessageBox (ACRX_T("Would you like to calculate silhouettes of polyface meshes?"), MB_YESNO) ;
int unit =AfxMessageBox (ACRX_T("Would you like to unit solid before processing?"), MB_YESNO) ;
//----- Process hidden line removal
AsdkHlrEngine hlr (
asPnt3d (tarPt), asVec3d (dirPt),
kEntity | kBlock | kSubentity | kProgress
| (honorInt == IDYES ? kHonorInternals : 0)
| (hidLines == IDYES ? kShowAll : 0)
| (meshSils == IDYES ? kMeshSilhouettes : 0)
| (unit == IDYES ? kUnite : 0)
) ;
hlr.setAcisConversionProgressCallBack (progress1) ;
hlr.setAhlProgressCallBack (progress2) ;
hlr.setAcadConversionProgressCallBack (progress3) ;
acedSetStatusBarProgressMeter (ACRX_T("HLR running: "), 0, 300) ;
hlr.run (collector) ;
acedRestoreStatusBar () ;
//----- Assign color to the resulting entities
//----- red for visible edges
//----- blue for non-visible edges
//----- yellow for internal edges
n =collector.mOutputData.logicalLength () ;
for (int i =0 ; i < n ; i++ ) {
AsdkHlrData *p =collector.mOutputData [i] ;
AcDbEntity *pEnt =p->getResultEntity () ;
AsdkHlrData::Visibility vis =p->getVisibility () ;
if ( vis == AsdkHlrData::kVisible ) {
pEnt->setColorIndex (1) ; //----- Read
} else if ( vis == AsdkHlrData::kInternallyHidden ) {
if ( p->getHlrVisibility () == AsdkHlrData::kVisible )
pEnt->setColorIndex (2) ; //----- Yellow
else
pEnt->setColorIndex (3) ; //----- Green
} else {
pEnt->setColorIndex (5) ; //----- Blue
}
if ( postToDatabase (NULL, pEnt, id) != Acad::eOk ) {
acutPrintf (_T("Failed to add entity to current space.\n")) ;
break ;
}
if ( acdbOpenAcDbEntity (pEnt, id, AcDb::kForRead) != Acad::eOk ) {
acutPrintf (_T("Failed to open last added outputed curve.\n")) ;
break ;
}
//----- Entity originator path for block reference entities
AcDbObjectIdArray ids =p->getObjectIds () ;
if ( ids.logicalLength () > 0 ) {
acutPrintf (ACRX_T("\n%lx, "), pEnt->objectId ().asOldId ()) ;
if ( p->getSubentId ().type () != AcDb::kNullSubentType )
acutPrintf (ACRX_T("[%ld, %ld], "), p->getSubentId ().type (), p->getSubentId ().index ()) ;
for ( int j =0 ; j < ids.logicalLength () ; j++ )
acutPrintf (ACRX_T("%lx, "), ids.at (j).asOldId ()) ;
AcDbObjectId id =ids.last () ;
if ( !id.isNull () ) {
AcDbEntity *ent =NULL ;
acdbOpenAcDbEntity (ent, id, AcDb::kForRead) ;
id =ent->linetypeId () ;
ent->close () ;
if ( pEnt->upgradeOpen () == Acad::eOk )
pEnt->setLinetype (id) ;
}
}
pEnt->close () ;
}
}
// Invoked by the command - DRAGPOLY
//
void
dragPolyCommand()
{
int nSides = 0;
ads_point center, startPt, normal;
if (acedGetPoint(NULL, "\nLocate center of polygon: ", center) != RTNORM)
return;
char nameBuf[133];
if (acedGetString(Adesk::kTrue, "\nEnter polygon name: ", nameBuf) != RTNORM)
return;
AcDbObjectId tsId = 0;
char styleBuf[133], msg[133];
// Get default text style
struct resbuf result ;
if ( acedGetVar ("TEXTSTYLE", &result) != RTNORM ) {
acutPrintf("\nError while reading default AutoCAD text style setting");
return ;
}
strcpy (styleBuf, result.resval.rstring) ;
sprintf (msg, "\nEnter text style <%s>: ", result.resval.rstring) ;
acdbFree (result.resval.rstring) ;
if (acedGetString(Adesk::kTrue, msg, styleBuf) != RTNORM)
return;
if ( styleBuf[0] == '\0' ) {
// Get default text style
struct resbuf result ;
if ( acedGetVar ("TEXTSTYLE", &result) != RTNORM ) {
acutPrintf("\nError while reading default AutoCAD text style setting");
return ;
}
strcpy (styleBuf, result.resval.rstring) ;
acdbFree (result.resval.rstring) ;
}
if ( rx_getTextStyleId(styleBuf,
acdbHostApplicationServices()->workingDatabase(),
tsId) != Acad::eOk)
{
acutPrintf("\nInvalid text style name");
return;
}
// Set the normal to the plane of the polygon to be the same as the
// z direction of the current ucs, i.e. (0, 0, 1) since we also got the
// center and start point in the current UCS. (acedGetPoint() returns in
// the current UCS.)
normal[X] = 0.0; normal[Y] = 0.0; normal[Z] = 1.0;
acdbUcs2Wcs(normal, normal, Adesk::kTrue);
acdbUcs2Ecs(center, center, normal, Adesk::kFalse);
acdbUcs2Ecs(startPt, startPt, normal, Adesk::kFalse);
double elev = center[2];
AcGePoint2d cen = asPnt2d(center), start = asPnt2d(startPt);
AcGeVector3d norm = asVec3d(normal);
AsdkPolyJig* pJig = new AsdkPolyJig();
pJig->acquire(cen, norm, nameBuf, tsId, elev);
delete pJig;
}