void ScaleInteraction::snapMouseReleaseEvent(QMouseEvent * anEvent, Feature* /*Closer*/) { Q_UNUSED(anEvent); if (Radius != 1.0 && Scaling.size() && !panning()) { CommandList* theList; theList = new CommandList(MainWindow::tr("Scale Feature").arg(Scaling[0]->id().numId), Scaling[0]); for (int i=0; i<Scaling.size(); ++i) { if (NodeOrigin && Scaling[i] == OriginNode) continue; Scaling[i]->setPosition(OriginalPosition[i]); if (Scaling[i]->layer()->isTrack()) theList->add(new MoveNodeCommand(Scaling[i],scalePosition(OriginalPosition[i], Radius), Scaling[i]->layer())); else theList->add(new MoveNodeCommand(Scaling[i],scalePosition(OriginalPosition[i], Radius), document()->getDirtyOrOriginLayer(Scaling[i]->layer()))); } document()->addHistory(theList); view()->invalidate(true, true, false); } view()->setInteracting(false); Radius = 1.0; Scaling.clear(); OriginalPosition.clear(); clearNoSnap(); }
void PxScaleRigidActor(PxRigidActor& actor, PxReal scale, bool scaleMassProps) { PX_CHECK_AND_RETURN(scale > 0, "PxScaleRigidActor requires that the scale parameter is greater than zero"); Ps::InlineArray<PxShape*, 64> shapes; shapes.resize(actor.getNbShapes()); actor.getShapes(shapes.begin(), shapes.size()); for(PxU32 i=0;i<shapes.size();i++) { shapes[i]->setLocalPose(scalePosition(shapes[i]->getLocalPose(), scale)); PxGeometryHolder h = shapes[i]->getGeometry(); switch(h.getType()) { case PxGeometryType::eSPHERE: h.sphere().radius *= scale; break; case PxGeometryType::ePLANE: break; case PxGeometryType::eCAPSULE: h.capsule().halfHeight *= scale; h.capsule().radius *= scale; break; case PxGeometryType::eBOX: h.box().halfExtents *= scale; break; case PxGeometryType::eCONVEXMESH: h.convexMesh().scale.scale *= scale; break; case PxGeometryType::eTRIANGLEMESH: h.triangleMesh().scale.scale *= scale; break; case PxGeometryType::eHEIGHTFIELD: h.heightField().heightScale *= scale; h.heightField().rowScale *= scale; h.heightField().columnScale *= scale; break; case PxGeometryType::eINVALID: case PxGeometryType::eGEOMETRY_COUNT: default: PX_ASSERT(0); } shapes[i]->setGeometry(h.any()); } if(!scaleMassProps) return; PxRigidDynamic* dynamic = (&actor)->is<PxRigidDynamic>(); if(!dynamic) return; PxReal scale3 = scale*scale*scale; dynamic->setMass(dynamic->getMass()*scale3); dynamic->setMassSpaceInertiaTensor(dynamic->getMassSpaceInertiaTensor()*scale3*scale*scale); dynamic->setCMassLocalPose(scalePosition(dynamic->getCMassLocalPose(), scale)); }
int QwtThermo::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QWidget::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { switch (_id) { case 0: setValue((*reinterpret_cast< double(*)>(_a[1]))); break; default: ; } _id -= 1; } #ifndef QT_NO_PROPERTIES else if (_c == QMetaObject::ReadProperty) { void *_v = _a[0]; switch (_id) { case 0: *reinterpret_cast< bool*>(_v) = alarmEnabled(); break; case 1: *reinterpret_cast< double*>(_v) = alarmLevel(); break; case 2: *reinterpret_cast< ScalePos*>(_v) = scalePosition(); break; case 3: *reinterpret_cast< int*>(_v) = spacing(); break; case 4: *reinterpret_cast< int*>(_v) = borderWidth(); break; case 5: *reinterpret_cast< double*>(_v) = maxValue(); break; case 6: *reinterpret_cast< double*>(_v) = minValue(); break; case 7: *reinterpret_cast< int*>(_v) = pipeWidth(); break; case 8: *reinterpret_cast< double*>(_v) = value(); break; } _id -= 9; } else if (_c == QMetaObject::WriteProperty) { void *_v = _a[0]; switch (_id) { case 0: setAlarmEnabled(*reinterpret_cast< bool*>(_v)); break; case 1: setAlarmLevel(*reinterpret_cast< double*>(_v)); break; case 2: setScalePosition(*reinterpret_cast< ScalePos*>(_v)); break; case 3: setSpacing(*reinterpret_cast< int*>(_v)); break; case 4: setBorderWidth(*reinterpret_cast< int*>(_v)); break; case 5: setMaxValue(*reinterpret_cast< double*>(_v)); break; case 6: setMinValue(*reinterpret_cast< double*>(_v)); break; case 7: setPipeWidth(*reinterpret_cast< int*>(_v)); break; case 8: setValue(*reinterpret_cast< double*>(_v)); break; } _id -= 9; } else if (_c == QMetaObject::ResetProperty) { _id -= 9; } else if (_c == QMetaObject::QueryPropertyDesignable) { _id -= 9; } else if (_c == QMetaObject::QueryPropertyScriptable) { _id -= 9; } else if (_c == QMetaObject::QueryPropertyStored) { _id -= 9; } else if (_c == QMetaObject::QueryPropertyEditable) { _id -= 9; } else if (_c == QMetaObject::QueryPropertyUser) { _id -= 9; } #endif // QT_NO_PROPERTIES return _id; }
void ScaleInteraction::snapMouseMoveEvent(QMouseEvent* anEvent, Feature* /*Closer*/) { if (Scaling.size() && !panning()) { Radius = distance(ScaleCenter,anEvent->pos()) / distance(ScaleCenter, COORD_TO_XY(StartDragPosition)); for (int i=0; i<Scaling.size(); ++i) { if (NodeOrigin && Scaling[i] == OriginNode) continue; Scaling[i]->setPosition(scalePosition(OriginalPosition[i], Radius)); } view()->invalidate(true, true, false); } }
int QwtSlider::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QwtAbstractSlider::qt_metacall(_c, _id, _a); if (_id < 0) return _id; #ifndef QT_NO_PROPERTIES if (_c == QMetaObject::ReadProperty) { void *_v = _a[0]; switch (_id) { case 0: *reinterpret_cast< Qt::Orientation*>(_v) = orientation(); break; case 1: *reinterpret_cast< ScalePosition*>(_v) = scalePosition(); break; case 2: *reinterpret_cast< bool*>(_v) = hasTrough(); break; case 3: *reinterpret_cast< bool*>(_v) = hasGroove(); break; case 4: *reinterpret_cast< QSize*>(_v) = handleSize(); break; case 5: *reinterpret_cast< int*>(_v) = borderWidth(); break; case 6: *reinterpret_cast< int*>(_v) = spacing(); break; } _id -= 7; } else if (_c == QMetaObject::WriteProperty) { void *_v = _a[0]; switch (_id) { case 0: setOrientation(*reinterpret_cast< Qt::Orientation*>(_v)); break; case 1: setScalePosition(*reinterpret_cast< ScalePosition*>(_v)); break; case 2: setTrough(*reinterpret_cast< bool*>(_v)); break; case 3: setGroove(*reinterpret_cast< bool*>(_v)); break; case 4: setHandleSize(*reinterpret_cast< QSize*>(_v)); break; case 5: setBorderWidth(*reinterpret_cast< int*>(_v)); break; case 6: setSpacing(*reinterpret_cast< int*>(_v)); break; } _id -= 7; } else if (_c == QMetaObject::ResetProperty) { _id -= 7; } else if (_c == QMetaObject::QueryPropertyDesignable) { _id -= 7; } else if (_c == QMetaObject::QueryPropertyScriptable) { _id -= 7; } else if (_c == QMetaObject::QueryPropertyStored) { _id -= 7; } else if (_c == QMetaObject::QueryPropertyEditable) { _id -= 7; } else if (_c == QMetaObject::QueryPropertyUser) { _id -= 7; } else if (_c == QMetaObject::RegisterPropertyMetaType) { if (_id < 7) *reinterpret_cast<int*>(_a[0]) = -1; _id -= 7; } #endif // QT_NO_PROPERTIES return _id; }
int QwtSlider::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QwtAbstractSlider::qt_metacall(_c, _id, _a); if (_id < 0) return _id; #ifndef QT_NO_PROPERTIES if (_c == QMetaObject::ReadProperty) { void *_v = _a[0]; switch (_id) { case 0: *reinterpret_cast< ScalePos*>(_v) = scalePosition(); break; case 1: *reinterpret_cast< BackgroundStyles*>(_v) = backgroundStyle(); break; case 2: *reinterpret_cast< QSize*>(_v) = handleSize(); break; case 3: *reinterpret_cast< int*>(_v) = borderWidth(); break; case 4: *reinterpret_cast< int*>(_v) = spacing(); break; } _id -= 5; } else if (_c == QMetaObject::WriteProperty) { void *_v = _a[0]; switch (_id) { case 0: setScalePosition(*reinterpret_cast< ScalePos*>(_v)); break; case 1: setBackgroundStyle(*reinterpret_cast< BackgroundStyles*>(_v)); break; case 2: setHandleSize(*reinterpret_cast< QSize*>(_v)); break; case 3: setBorderWidth(*reinterpret_cast< int*>(_v)); break; case 4: setSpacing(*reinterpret_cast< int*>(_v)); break; } _id -= 5; } else if (_c == QMetaObject::ResetProperty) { _id -= 5; } else if (_c == QMetaObject::QueryPropertyDesignable) { _id -= 5; } else if (_c == QMetaObject::QueryPropertyScriptable) { _id -= 5; } else if (_c == QMetaObject::QueryPropertyStored) { _id -= 5; } else if (_c == QMetaObject::QueryPropertyEditable) { _id -= 5; } else if (_c == QMetaObject::QueryPropertyUser) { _id -= 5; } #endif // QT_NO_PROPERTIES return _id; }
int QwtThermo::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QwtAbstractScale::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { if (_id < 1) qt_static_metacall(this, _c, _id, _a); _id -= 1; } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) { if (_id < 1) *reinterpret_cast<int*>(_a[0]) = -1; _id -= 1; } #ifndef QT_NO_PROPERTIES else if (_c == QMetaObject::ReadProperty) { void *_v = _a[0]; switch (_id) { case 0: *reinterpret_cast< Qt::Orientation*>(_v) = orientation(); break; case 1: *reinterpret_cast< ScalePosition*>(_v) = scalePosition(); break; case 2: *reinterpret_cast< OriginMode*>(_v) = originMode(); break; case 3: *reinterpret_cast< bool*>(_v) = alarmEnabled(); break; case 4: *reinterpret_cast< double*>(_v) = alarmLevel(); break; case 5: *reinterpret_cast< double*>(_v) = origin(); break; case 6: *reinterpret_cast< int*>(_v) = spacing(); break; case 7: *reinterpret_cast< int*>(_v) = borderWidth(); break; case 8: *reinterpret_cast< int*>(_v) = pipeWidth(); break; case 9: *reinterpret_cast< double*>(_v) = value(); break; } _id -= 10; } else if (_c == QMetaObject::WriteProperty) { void *_v = _a[0]; switch (_id) { case 0: setOrientation(*reinterpret_cast< Qt::Orientation*>(_v)); break; case 1: setScalePosition(*reinterpret_cast< ScalePosition*>(_v)); break; case 2: setOriginMode(*reinterpret_cast< OriginMode*>(_v)); break; case 3: setAlarmEnabled(*reinterpret_cast< bool*>(_v)); break; case 4: setAlarmLevel(*reinterpret_cast< double*>(_v)); break; case 5: setOrigin(*reinterpret_cast< double*>(_v)); break; case 6: setSpacing(*reinterpret_cast< int*>(_v)); break; case 7: setBorderWidth(*reinterpret_cast< int*>(_v)); break; case 8: setPipeWidth(*reinterpret_cast< int*>(_v)); break; case 9: setValue(*reinterpret_cast< double*>(_v)); break; } _id -= 10; } else if (_c == QMetaObject::ResetProperty) { _id -= 10; } else if (_c == QMetaObject::QueryPropertyDesignable) { _id -= 10; } else if (_c == QMetaObject::QueryPropertyScriptable) { _id -= 10; } else if (_c == QMetaObject::QueryPropertyStored) { _id -= 10; } else if (_c == QMetaObject::QueryPropertyEditable) { _id -= 10; } else if (_c == QMetaObject::QueryPropertyUser) { _id -= 10; } else if (_c == QMetaObject::RegisterPropertyMetaType) { if (_id < 10) *reinterpret_cast<int*>(_a[0]) = -1; _id -= 10; } #endif // QT_NO_PROPERTIES return _id; }
void LinearGauge::saveSettings( QSettings& pSettings ) { // Range pSettings.setValue("orientation", orientation()); pSettings.setValue("scalePosition", scalePosition()); pSettings.setValue("minValue", minValue()); pSettings.setValue("maxValue", maxValue()); // Ticks pSettings.setValue("scaleMaxMajor", scaleMaxMajor()); pSettings.setValue("scaleMaxMinor", scaleMaxMinor()); pSettings.setValue("labels", scaleDraw()->hasComponent( QwtAbstractScaleDraw::Labels )); pSettings.setValue("font", font().family()); pSettings.setValue("fontSize", font().pointSize()); // Pipe pSettings.setValue("value", value()); pSettings.setValue("pipeWidth", pipeWidth()); pSettings.setValue("pipeColor", fillBrush().color().rgb()); // Alarm pSettings.setValue("alarmEnabled", alarmEnabled()); pSettings.setValue("alarmLevel", alarmLevel()); pSettings.setValue("alarmBrush", alarmBrush().color().rgb()); // Color pSettings.setValue("textColor", textColor().rgb()); pSettings.setValue("backgroundColor", backgroundColor().rgb()); AbstractGauge::saveSettings( pSettings ); }