void QvisTensorPlotWindow::scaleByMagnitudeToggled(bool) { tensorAtts->SetScaleByMagnitude(!tensorAtts->GetScaleByMagnitude()); Apply(); }
/*---------------------------------------------------------------------- | PLT_MediaObjectList::~PLT_MediaObjectList +---------------------------------------------------------------------*/ PLT_MediaObjectList::~PLT_MediaObjectList() { Apply(NPT_ObjectDeleter<PLT_MediaObject>()); }
void QvisAxisAttributesWidget::titleFontChanged(const FontAttributes &f) { atts.GetTitle().SetFont(f); Apply(); }
void QvisLegacyStreamlinePlotWindow::radiusProcessText() { GetCurrentValues(16); Apply(); }
void QvisLegacyStreamlinePlotWindow::boxExtentsProcessText() { GetCurrentValues(12); Apply(); }
void QvisLegacyStreamlinePlotWindow::planeUpAxisProcessText() { GetCurrentValues(8); Apply(); }
void QvisLegacyStreamlinePlotWindow::pointDensityChanged(int val) { streamAtts->SetPointDensity(val); Apply(); }
void QvisTensorPlotWindow::colorModeChanged(int index) { tensorAtts->SetColorByEigenvalues(index == 0); Apply(); }
void QvisTensorPlotWindow::invertColorTableToggled(bool val) { tensorAtts->SetInvertColorTable(val); Apply(); }
void QvisTensorPlotWindow::processStrideText() { GetCurrentValues(TensorAttributes::ID_stride); Apply(); }
void QvisTensorPlotWindow::legendToggled(bool) { tensorAtts->SetUseLegend(!tensorAtts->GetUseLegend()); Apply(); }
void QvisTensorPlotWindow::processNTensorsText() { GetCurrentValues(TensorAttributes::ID_nTensors); Apply(); }
void QvisTensorPlotWindow::reduceMethodChanged(int index) { tensorAtts->SetUseStride(index != 0); Apply(); }
void QvisTensorPlotWindow::autoScaleToggled(bool) { tensorAtts->SetAutoScale(!tensorAtts->GetAutoScale()); Apply(); }
void QvisLegacyStreamlinePlotWindow::planeOriginProcessText() { GetCurrentValues(6); Apply(); }
PlayField::PlayField(Hiscore *h, View *parent, ScrollText *st) : View(Rect(0,0,1,1)), Message(){ //-.25f,-.25f,1.25f,1.25f)){ // Listen("/Devices/Input/Dialogic"); SetClearState(false); #ifdef NEWSCALE parent->Apply(this); players = new DynamicArray(); channels = new DynamicArray(); int dir = 0; int x = 1; int y = 1; int xr = 2; int yb = 2; int xl = 0; int yt = 0; int n = 1; for(int _x=0; _x<4; _x++){ for(int _y=0; _y<4; _y++){ Player *pl = new Player(h,Rect((float(x)/4.0f),(float(y)/4.0f),(float(x+1)/4.0f),(float(y+1)/4.0f)),st,n++); Apply(pl); players->Add(pl); channels->Add(0); switch(dir){ case 0: if(++x==xr){ dir++; xr++; } break; case 1: if(++y==yb){ dir++; yb++; } break; case 2: if(--x==xl){ dir++; xl--; } break; case 3: if(--y==yt){ dir=0; yt--; } break; } } } #else parent->Apply(this); players = new DynamicArray(); channels = new DynamicArray(); int dir = 0; int x = 1; int y = 1; int xr = 2; int yb = 2; int xl = 1; int yt = 1; int n = 1; for(int _x=0; _x<4; _x++){ for(int _y=0; _y<4; _y++){ Player *pl = new Player(h,Rect((float(x)/4.0f),(float(y)/4.0f),(float(x+1)/4.0f),(float(y+1)/4.0f)),st,n++); Apply(pl); players->Add(pl); channels->Add(0); switch(dir){ case 0: if(++x==xr){ dir++; xr++; } break; case 1: if(++y==yb){ dir++; yb++; } break; case 2: if(--x==xl){ dir++; xl--; } break; case 3: if(--y==yt){ dir=0; yt--; x--; y--; } break; } } } #endif foo = 0; player_count=0; zoom = .5f; xz = yz = 0; Listen("/Devices/Input/Dialogic"); }
void QvisLegacyStreamlinePlotWindow::planeNormalProcessText() { GetCurrentValues(7); Apply(); }
void Connection::applyConfigs () { qDebug("%s", __FUNCTION__); recurse(m_data, Apply()); }
void QvisLegacyStreamlinePlotWindow::sphereOriginProcessText() { GetCurrentValues(10); Apply(); }
void QvisLegacyStreamlinePlotWindow::apply() { Apply(true); }
void QvisLegacyStreamlinePlotWindow::displayMethodChanged(int val) { streamAtts->SetDisplayMethod((LegacyStreamlineAttributes::DisplayMethod)val); Apply(); }
void QvisLegacyStreamlinePlotWindow::stepLengthProcessText() { GetCurrentValues(1); Apply(); }
void QvisLegacyStreamlinePlotWindow::useWholeBoxChanged(bool val) { streamAtts->SetUseWholeBox(val); Apply(); }
void QvisLegacyStreamlinePlotWindow::maxTimeProcessText() { GetCurrentValues(2); Apply(); }
void QvisLegacyStreamlinePlotWindow::coloringMethodChanged(int val) { streamAtts->SetColoringMethod((LegacyStreamlineAttributes::ColoringMethod)val); Apply(); }
void QvisLegacyStreamlinePlotWindow::pointSourceProcessText() { GetCurrentValues(3); Apply(); }
//! This overload is here to make sure int gets casted right to size_t. inline double Apply(arma::mat& data, const int newDimension) const { return Apply(data, size_t(newDimension)); }
void QvisLegacyStreamlinePlotWindow::lineEndProcessText() { GetCurrentValues(5); Apply(); }
void QvisAxisAttributesWidget::labelScalingChanged(int scaling) { atts.GetLabel().SetScaling(scaling); Apply(); }
void QvisTensorPlotWindow::apply() { Apply(true); }