/*========================================================================= Library: CTK Copyright (c) 2010 Kitware Inc. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.commontk.org/LICENSE Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. =========================================================================*/ // Qt includes // CTK includes #include "ctkLogger.h" #include "ctkVTKChartView.h" // VTK includes #include #include #include #include #include #include #include #include //---------------------------------------------------------------------------- static ctkLogger logger("org.commontk.visualization.vtk.widgets.ctkVTKChartView"); //---------------------------------------------------------------------------- class ctkVTKChartViewPrivate: public ctkPrivate { public: ctkVTKChartViewPrivate(); void init(); vtkSmartPointer ContextView; vtkSmartPointer Chart; }; // ---------------------------------------------------------------------------- // ctkVTKChartViewPrivate methods // ---------------------------------------------------------------------------- ctkVTKChartViewPrivate::ctkVTKChartViewPrivate() { this->ContextView = vtkSmartPointer::New(); this->Chart = vtkSmartPointer::New(); this->ContextView->GetScene()->AddItem(this->Chart); } // ---------------------------------------------------------------------------- void ctkVTKChartViewPrivate::init() { CTK_P(ctkVTKChartView); this->ContextView->SetInteractor(p->GetInteractor()); p->SetRenderWindow(this->ContextView->GetRenderWindow()); // low def for now (faster) //p->GetRenderWindow()->SetMultiSamples(0); //vtkOpenGLContextDevice2D::SafeDownCast(this->ContextView->GetContext()->GetDevice()) // ->SetStringRendererToQt(); } // ---------------------------------------------------------------------------- // ctkVTKChartView methods // ---------------------------------------------------------------------------- ctkVTKChartView::ctkVTKChartView(QWidget* parentWidget) :QVTKWidget(parentWidget) { CTK_INIT_PRIVATE(ctkVTKChartView); CTK_D(ctkVTKChartView); d->init(); this->setAutomaticImageCacheEnabled(true); } // ---------------------------------------------------------------------------- ctkVTKChartView::~ctkVTKChartView() { } // ---------------------------------------------------------------------------- void ctkVTKChartView::setTitle(const QString& newTitle) { CTK_D(ctkVTKChartView); d->Chart->SetTitle(newTitle.toLatin1()); } // ---------------------------------------------------------------------------- QString ctkVTKChartView::title()const { CTK_D(const ctkVTKChartView); return d->Chart->GetTitle(); } // ---------------------------------------------------------------------------- vtkChartXY* ctkVTKChartView::chart()const { CTK_D(const ctkVTKChartView); return d->Chart; } // ---------------------------------------------------------------------------- void ctkVTKChartView::addPlot(vtkPlot* plot) { CTK_D(ctkVTKChartView); d->Chart->AddPlot(plot); } // ---------------------------------------------------------------------------- void ctkVTKChartView::fitAxesToBounds() { vtkChartXY* chart = this->chart(); const vtkIdType plotCount = chart->GetNumberOfPlots(); double extremaBounds[8] = {VTK_DOUBLE_MAX, VTK_DOUBLE_MIN, VTK_DOUBLE_MAX, VTK_DOUBLE_MIN, VTK_DOUBLE_MAX, VTK_DOUBLE_MIN}; for (vtkIdType i = 0; i < plotCount; ++i) { vtkPlot* plot = chart->GetPlot(i); int corner = chart->GetPlotCorner(plot); double bounds[4]; plot->GetBounds(bounds); switch (corner) { // bottom left case 0: // x extremaBounds[2] = extremaBounds[2] > bounds[0] ? bounds[0] : extremaBounds[2]; extremaBounds[3] = extremaBounds[3] < bounds[1] ? bounds[1] : extremaBounds[3]; // y extremaBounds[0] = extremaBounds[0] > bounds[2] ? bounds[2] : extremaBounds[0]; extremaBounds[1] = extremaBounds[1] < bounds[3] ? bounds[3] : extremaBounds[1]; break; // bottom right case 1: // x extremaBounds[2] = extremaBounds[2] > bounds[0] ? bounds[0] : extremaBounds[2]; extremaBounds[3] = extremaBounds[3] < bounds[1] ? bounds[1] : extremaBounds[3]; // y extremaBounds[4] = extremaBounds[4] > bounds[2] ? bounds[2] : extremaBounds[4]; extremaBounds[5] = extremaBounds[5] < bounds[3] ? bounds[3] : extremaBounds[5]; break; // top right case 2: // x extremaBounds[6] = extremaBounds[6] > bounds[0] ? bounds[0] : extremaBounds[6]; extremaBounds[7] = extremaBounds[7] < bounds[1] ? bounds[1] : extremaBounds[7]; // y extremaBounds[4] = extremaBounds[4] > bounds[2] ? bounds[2] : extremaBounds[4]; extremaBounds[5] = extremaBounds[5] < bounds[3] ? bounds[3] : extremaBounds[5]; break; // top left case 3: // x extremaBounds[6] = extremaBounds[6] > bounds[0] ? bounds[0] : extremaBounds[6]; extremaBounds[7] = extremaBounds[7] < bounds[1] ? bounds[1] : extremaBounds[7]; // y extremaBounds[0] = extremaBounds[0] > bounds[2] ? bounds[2] : extremaBounds[1]; extremaBounds[1] = extremaBounds[0] < bounds[3] ? bounds[3] : extremaBounds[1]; break; } } for (int i = 0; i < chart->GetNumberOfAxes(); ++i) { if (extremaBounds[2*i] != VTK_DOUBLE_MAX) { chart->GetAxis(i)->SetRange(extremaBounds[2*i], extremaBounds[2*i+1]); chart->GetAxis(i)->SetBehavior(1); } } }