Acad::ErrorStatus AcLine::moveGripPointsAt(const AcDbVoidPtrArray&gripAppData,
const AcGeVector3d &offset,
const int bitflags)
{
std::string *pshotGrip = 0;
AcGePoint3d point;
for(int i=0;i<gripAppData.length(); i++)
{
pshotGrip = static_cast<std::string*>(gripAppData[i]);
if(*pshotGrip == "First")
{
msp += offset;
continue;
}
else if(*pshotGrip =="Second")
{
mep += offset;
continue;
}
else if(*pshotGrip == "Center")
{
mcp += offset;
continue;
}
}
return Acad::eOk;
}
bool isModuleLoaded(const char* str)
{
AcDbVoidPtrArray* pApps = reinterpret_cast<AcDbVoidPtrArray*>(acrxLoadedApps());
if (pApps==NULL)
return false;
bool bFound = false;
for (int i=0;i<pApps->length();i++)
{
if (stricmp(reinterpret_cast<const char*>(pApps->at(i)),str)==0)
{
bFound = true;
break;
}
}
for (;pApps->length()>0;)
{
delete reinterpret_cast<char*>(pApps->at(0));
pApps->removeAt(0);
}
delete pApps;
return bFound;
}
void
ArxDbgUiTdcSysReactors::removeInputReactorFromAll()
{
if (m_inputReactor) {
AcApDocument* tmpDoc;
AcDbVoidPtrArray docPtrs;
ArxDbgUtils::getAllDocuments(docPtrs);
acutPrintf(_T("\nRemoving Editor Input Reactor from all documents..."));
int len = docPtrs.length();
for (int i=0; i<len; i++) {
tmpDoc = static_cast<AcApDocument*>(docPtrs[i]);
tmpDoc->inputPointManager()->removeInputContextReactor(m_inputReactor);
}
}
}
void
ArxDbgUiTdcSysReactors::removeDbReactorFromAll()
{
if (m_dbReactor) {
AcDbDatabase* tmpDb;
AcDbVoidPtrArray dbPtrs;
ArxDbgUtils::getAllDatabases(dbPtrs);
acutPrintf(_T("\nRemoving Database Reactor from all active databases..."));
int len = dbPtrs.length();
for (int i=0; i<len; i++) {
tmpDb = static_cast<AcDbDatabase*>(dbPtrs[i]);
tmpDb->removeReactor(m_dbReactor);
}
}
}
void
ArxDbgUiTdcSysReactors::attachDbReactorToAll()
{
if (m_dbReactor) {
AcDbDatabase* tmpDb;
AcDbVoidPtrArray dbPtrs;
ArxDbgUtils::getAllDatabases(dbPtrs);
acutPrintf(_T("\nAttaching Database Reactor to all active databases..."));
int len = dbPtrs.length();
for (int i=0; i<len; i++) {
tmpDb = static_cast<AcDbDatabase*>(dbPtrs[i]);
tmpDb->addReactor(m_dbReactor);
}
}
}
AcDbObjectId CArxHelper::CreateBlock(const AcDbVoidPtrArray& arrEnt, const CString& strName)
{
AcDbObjectId blockId = AcDbObjectId::kNull;
AcDbBlockTableRecord* pBlockTableRecord = new AcDbBlockTableRecord();
pBlockTableRecord->setName(strName);
pBlockTableRecord->setOrigin(AcGePoint3d::kOrigin);
for (int i = 0; i < arrEnt.length(); ++ i)
{
AcDbEntity* pEntity = (AcDbEntity*)arrEnt.at(i);
pBlockTableRecord->appendAcDbEntity(pEntity);
pEntity->close();
}
AcDbBlockTable* pBlockTable = NULL;
acdbHostApplicationServices()->workingDatabase()->getSymbolTable(pBlockTable, AcDb::kForWrite);
pBlockTable->add(blockId,pBlockTableRecord);
pBlockTableRecord->close();
pBlockTable->close();
return blockId;
}
void
ArxDbgUiTdcSysReactors::removeTransactionReactorFromAll()
{
if (m_transReactor) {
AcDbDatabase* tmpDb;
AcDbVoidPtrArray dbPtrs;
ArxDbgUtils::getAllDatabases(dbPtrs);
AcDbTransactionManager* tmpTrMgr;
acutPrintf(_T("\nRemoving Transaction Reactor from all active databases..."));
int len = dbPtrs.length();
for (int i=0; i<len; i++) {
tmpDb = static_cast<AcDbDatabase*>(dbPtrs[i]);
tmpTrMgr = tmpDb->transactionManager();
if (tmpTrMgr)
tmpTrMgr->removeReactor(m_transReactor);
}
}
}
BOOL
ArxDbgUiTdcCmds::OnInitDialog()
{
ArxDbgUiTdcRxObjectBase::OnInitDialog();
buildCmdGroupMap();
POSITION pos;
CString str;
AcDbVoidPtrArray* cmds = NULL;
HTREEITEM treeItem;
AcEdCommand* tmpCmd;
bool isFirst = true;
for (pos = m_cmdMap.GetStartPosition(); pos != NULL;) {
m_cmdMap.GetNextAssoc(pos, str, (void*&)cmds);
treeItem = addCmdTreeItem(str, NULL, TVI_ROOT, true);
if (treeItem != NULL) {
int len = cmds->length();
for (int i=0; i<len; i++) {
tmpCmd = static_cast<AcEdCommand*>(cmds->at(i));
addCmdTreeItem(tmpCmd->localName(), tmpCmd, treeItem, true);
}
if (isFirst) {
m_cmdTree.SelectItem(treeItem); // make first one selected
isFirst = false;
}
}
}
buildColumns(m_dataList);
displayCurrent();
return TRUE;
}
Acad::ErrorStatus
AcRectangle::moveGripPointsAt(const AcDbVoidPtrArray& appData,
const AcGeVector3d& offset,
const int bitflags)
{
assertWriteEnabled();
if (!appData.length())
return Acad::eInvalidInput;
AcGePoint3d pt1, pt2;
AcGeVector3d diaVec;
AppData *pAppData = (AppData*)appData[0];
int gripID = pAppData->index();
AcGeVector3d vertDir = mNormal.crossProduct(mHorizDir);
switch(gripID) {
case 0:
mCenter += offset;
break;
case 1:
pt1 = mCenter + 0.5 * mWidth * mHorizDir + 0.5 * mHeight * vertDir;
pt2 = mCenter - 0.5 * mWidth * mHorizDir - 0.5 * mHeight * vertDir;
pt1 += offset;
diaVec = pt1 - pt2;
mCenter += 0.5 * offset;
mWidth = fabs(diaVec.dotProduct(mHorizDir));
mHeight = fabs(diaVec.dotProduct(vertDir));
break;
case 2:
pt1 = mCenter - 0.5 * mWidth * mHorizDir + 0.5 * mHeight * vertDir;
pt2 = mCenter + 0.5 * mWidth * mHorizDir - 0.5 * mHeight * vertDir;
pt1 += offset;
diaVec = pt1 - pt2;
mCenter += 0.5 * offset;
mWidth = fabs(diaVec.dotProduct(mHorizDir));
mHeight = fabs(diaVec.dotProduct(vertDir));
break;
case 3:
pt1 = mCenter - 0.5 * mWidth * mHorizDir - 0.5 * mHeight * vertDir;
pt2 = mCenter + 0.5 * mWidth * mHorizDir + 0.5 * mHeight * vertDir;
pt1 += offset;
diaVec = pt1 - pt2;
mCenter += 0.5 * offset;
mWidth = fabs(diaVec.dotProduct(mHorizDir));
mHeight = fabs(diaVec.dotProduct(vertDir));
break;
case 4:
pt1 = mCenter + 0.5 * mWidth * mHorizDir - 0.5 * mHeight * vertDir;
pt2 = mCenter - 0.5 * mWidth * mHorizDir + 0.5 * mHeight * vertDir;
pt1 += offset;
diaVec = pt1 - pt2;
mCenter += 0.5 * offset;
mWidth = fabs(diaVec.dotProduct(mHorizDir));
mHeight = fabs(diaVec.dotProduct(vertDir));
break;
}
// Update dynamic dimensions
//
AcDbDimDataPtrArray *pDimDataArr = NULL;
if (pAppData)
pDimDataArr = pAppData->dimData();
updateDimensions(pDimDataArr);
return Acad::eOk;
}
// [9/5/2007 suzhiyong]
Acad::ErrorStatus PDEcone::explodeTo3DSolid(AcDb3dSolid* &p3dSolid) const
{
assertReadEnabled();
#ifdef _OBJECTARX2004_
Acad::ErrorStatus es = Acad::eOk;
int i = 0;
AcGeVector3d faceVect = getFaceVect();
AcDbCurve *pCurve = NULL;
AcDbVoidPtrArray curveSegments;
double pathLen = m_ptStart.distanceTo(m_ptEnd);
AcGePoint3d sp, ep;
double d1, d2;
if(m_dDiameter1 >= m_dDiameter2)
{
sp = m_ptStart;
ep = m_ptEnd;
d1 = m_dDiameter1;
d2 = m_dDiameter2;
}
else
{
sp = m_ptEnd;
ep = m_ptStart;
d1 = m_dDiameter2;
d2 = m_dDiameter1;
}
//extrudeAlongPath函数在由较大region拉成较小region时容易产生自交问题,所以
//炸开时选择由小的region拉成大的region
AcDbLine *pLine = new AcDbLine(ep, sp);
pLine->setPropertiesFrom(this);
pCurve = pLine;
if(pCurve != NULL)
{
if((es = addToDb(pCurve)) == Acad::eOk)
{
AcDbObjectId id;
id = pCurve->objectId();
pCurve->close();
if((es = acdbOpenObject((AcDbCurve*&)pCurve, id, AcDb::kForRead)) != Acad::eOk)
return Acad::eNotApplicable;
}
else
{
if(pCurve != NULL)
delete pCurve;
return Acad::eNotApplicable;
}
}
AcDbCircle sCir(ep, faceVect, d2 / 2.0);
curveSegments.append(&sCir);
AcDbVoidPtrArray regions;
es = AcDbRegion::createFromCurves(curveSegments, regions);
if(es == Acad::eOk && !regions.isEmpty())
{
AcDb3dSolid *pBody;
pBody = new AcDb3dSolid;
////求taper Angle
//AcGeVector3d vec1 = (m_ptStart-m_ptEnd);//.normal();
////m_dDiameter1和m_dDiameter2的大小问题
//AcGeVector3d perpVec = faceVect.perpVector()*((m_dDiameter1/2-m_dDiameter2/2));
//AcGePoint3d point2(m_ptStart.x+perpVec.x, m_ptStart.y+perpVec.y, m_ptStart.z+perpVec.z);
//AcGeVector3d vec2 = (point2 - m_ptEnd);//.normal();
////taperAngle为负时表示放大region,反之为缩小
//double angle = -1*vec1.angleTo(vec2);
////angle没有到达最大值时仍然有问题,建议不使用extrudeAlongPath函数
//taperAngle是指两个圆心连线垂直于圆面时的角度,大于0时表示缩小,小于0时表示放大
es = pBody->extrudeAlongPath((AcDbRegion*)(regions[0]), pCurve,//angle);
-1*atan((d1 / 2.0 - d2 / 2.0) / pathLen));
if(es != Acad::eOk)
{
if(pCurve != NULL)
{
pCurve->upgradeOpen();
pCurve->erase();
pCurve->close();
}
delete pBody;
for(i = 0; i < regions.length(); i++)
delete (AcRxObject*)regions[i];
return Acad::eNotApplicable;
}
pBody->setPropertiesFrom(this);
p3dSolid = pBody;
}
else
{
if(pCurve != NULL)
{
pCurve->upgradeOpen();
pCurve->erase();
pCurve->close();
}
for(i = 0; i < regions.length(); i++)
delete (AcRxObject*)regions[i];
return Acad::eNotApplicable;
}
if(pCurve != NULL)
{
pCurve->upgradeOpen();
pCurve->erase();
pCurve->close();
}
for(i = 0; i < regions.length(); i++)
delete (AcRxObject*)regions[i];
return Acad::eOk;
#else
return Acad::eNotApplicable;
#endif
}
static Acad::ErrorStatus
thickenPoly(AsdkPoly* poly,AcDbEntity*& ent, AcGePoint2d& savedCenter,AcGePoint2d& savedStartPoint,
int& savedNumSides,AcGeVector3d& savedNormal,char* savedName, double& savedElevation)
{
Acad::ErrorStatus es = Acad::eOk;
int i;
AcDbVoidPtrArray lines;
AcDbVoidPtrArray regions;
// Explode to a set of lines
//
if ((es = poly->explode(lines)) != Acad::eOk) {
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}
// Create a region from the set of lines.
//
if ((es = AcDbRegion::createFromCurves(lines, regions)) != Acad::eOk) {
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}
assert(regions.length() == 1);
AcDbRegion* region = AcDbRegion::cast((AcRxObject*)regions[0]);
assert(region != NULL);
// Extrude the region to create a solid.
//
double height;
if ((es = poly->getDistAtParam(6.28318530717958647692, height))
!= Acad::eOk)
{
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}
height *= 0.25;
AcDb3dSolid* solid = new AcDb3dSolid;
assert(solid != NULL);
if ((es = solid->extrude(region, height, 0.0)) != Acad::eOk) {
delete solid;
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}
// Save up the data to flatten the solid.
//
savedCenter = poly->center();
savedStartPoint = poly->startPoint();
savedNumSides = poly->numSides();
savedNormal = poly->normal();
savedElevation = poly->elevation();
// Copy the poly name
//
strcpy(savedName, poly->name());
// Now we have a solid. Change the entity to be this solid
if ((es = solid->setPropertiesFrom(poly)) != Acad::eOk) {
delete solid;
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}
ent = poly;
if ((es = ent->upgradeOpen()) != Acad::eOk) {
delete solid;
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}
es = replaceEntity(ent, solid);
if ((es != Acad::eOk) && (es != Acad::eObjectToBeDeleted)) {
ent->downgradeOpen();
delete solid;
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}
es = ent->downgradeOpen();
for (i = 0; i < lines.length(); i++) {
delete (AcRxObject*)lines[i];
}
for (i = 0; i < regions.length(); i++) {
delete (AcRxObject*)regions[i];
}
return es;
}