mirror of
https://bitbucket.org/mfeemster/fractorium.git
synced 2025-01-21 21:20:07 -05:00
270 lines
11 KiB
C++
270 lines
11 KiB
C++
#include "FractoriumPch.h"
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#include "FractoriumEmberController.h"
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#include "Fractorium.h"
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#include "GLEmberController.h"
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/// <summary>
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/// Constructor which initializes the non-templated members contained in this class.
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/// The renderer, other templated members and GUI setup will be done in the templated derived controller class.
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/// </summary>
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/// <param name="fractorium">Pointer to the main window.</param>
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FractoriumEmberControllerBase::FractoriumEmberControllerBase(Fractorium* fractorium)
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{
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Timing t;
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m_Rendering = false;
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m_Shared = true;
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m_Platform = 0;
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m_Device = 0;
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m_FailedRenders = 0;
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m_UndoIndex = 0;
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m_RenderType = CPU_RENDERER;
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m_OutputTexID = 0;
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m_SubBatchCount = 1;//Will be ovewritten by the options on first render.
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m_Fractorium = fractorium;
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m_RenderTimer = NULL;
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m_RenderRestartTimer = NULL;
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m_Rand = QTIsaac<ISAAC_SIZE, ISAAC_INT>(ISAAC_INT(t.Tic()), ISAAC_INT(t.Tic() * 2), ISAAC_INT(t.Tic() * 3));//Ensure a different rand seed on each instance.
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m_RenderTimer = new QTimer(m_Fractorium);
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m_RenderTimer->setInterval(0);
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m_Fractorium->connect(m_RenderTimer, SIGNAL(timeout()), SLOT(IdleTimer()));
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m_RenderRestartTimer = new QTimer(m_Fractorium);
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m_Fractorium->connect(m_RenderRestartTimer, SIGNAL(timeout()), SLOT(StartRenderTimer()));
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}
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/// <summary>
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/// Destructor which stops rendering and deletes the timers.
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/// All other memory is cleared automatically through the use of STL.
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/// </summary>
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FractoriumEmberControllerBase::~FractoriumEmberControllerBase()
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{
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StopRenderTimer(true);
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if (m_RenderTimer)
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{
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m_RenderTimer->stop();
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delete m_RenderTimer;
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m_RenderTimer = NULL;
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}
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if (m_RenderRestartTimer)
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{
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m_RenderRestartTimer->stop();
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delete m_RenderRestartTimer;
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m_RenderRestartTimer = NULL;
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}
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}
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/// <summary>
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/// Constructor which passes the main window parameter to the base, initializes the templated members contained in this class.
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/// Then sets up the parts of the GUI that require templated Widgets, such as the variations tree and the palette table.
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/// Note the renderer is not setup here automatically. Instead, it must be manually created by the caller later.
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/// </summary>
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/// <param name="fractorium">Pointer to the main window.</param>
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template <typename T>
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FractoriumEmberController<T>::FractoriumEmberController(Fractorium* fractorium)
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: FractoriumEmberControllerBase(fractorium)
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{
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m_PreviewRun = false;
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m_PreviewRunning = false;
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m_SheepTools = unique_ptr<SheepTools<T, T>>(new SheepTools<T, T>("flam3-palettes.xml", new EmberNs::Renderer<T, T>()));
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m_GLController = unique_ptr<GLEmberController<T>>(new GLEmberController<T>(fractorium, fractorium->ui.GLDisplay, this));
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m_PreviewRenderer = unique_ptr<EmberNs::Renderer<T, T>>(new EmberNs::Renderer<T, T>());
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SetupVariationTree();
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InitPaletteTable("flam3-palettes.xml");
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BackgroundChanged(QColor(0, 0, 0));//Default to black.
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ClearUndo();
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m_PreviewRenderer->Callback(NULL);
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m_PreviewRenderer->NumChannels(4);
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m_PreviewRenderer->EarlyClip(m_Fractorium->m_Settings->EarlyClip());
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m_PreviewRenderer->YAxisUp(m_Fractorium->m_Settings->YAxisUp());
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m_PreviewRenderer->SetEmber(m_Ember);//Give it an initial ember, will be updated many times later.
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//m_PreviewRenderer->ThreadCount(1);//For debugging.
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m_PreviewRenderFunc = [&](uint start, uint end)
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{
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while(m_PreviewRun || m_PreviewRunning)
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{
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}
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m_PreviewRun = true;
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m_PreviewRunning = true;
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m_PreviewRenderer->ThreadCount(max(1u, Timing::ProcessorCount() - 1));//Leave one processor free so the GUI can breathe.
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QTreeWidget* tree = m_Fractorium->ui.LibraryTree;
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if (QTreeWidgetItem* top = tree->topLevelItem(0))
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{
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for (size_t i = start; m_PreviewRun && i < end && i < m_EmberFile.Size(); i++)
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{
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Ember<T> ember = m_EmberFile.m_Embers[i];
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ember.SyncSize();
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ember.SetSizeAndAdjustScale(PREVIEW_SIZE, PREVIEW_SIZE, false, SCALE_WIDTH);
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ember.m_TemporalSamples = 1;
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ember.m_Quality = 25;
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ember.m_Supersample = 1;
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m_PreviewRenderer->SetEmber(ember);
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if (m_PreviewRenderer->Run(m_PreviewFinalImage) == RENDER_OK)
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{
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if (EmberTreeWidgetItem<T>* treeItem = dynamic_cast<EmberTreeWidgetItem<T>*>(top->child(i)))
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{
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//It is critical that Qt::BlockingQueuedConnection is passed because this is running on a different thread than the UI.
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//This ensures the events are processed in order as each preview is updated, and that control does not return here
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//until the update is complete.
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QMetaObject::invokeMethod(m_Fractorium, "SetLibraryTreeItemData", Qt::BlockingQueuedConnection,
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Q_ARG(EmberTreeWidgetItemBase*, dynamic_cast<EmberTreeWidgetItemBase*>(treeItem)),
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Q_ARG(vector<byte>&, m_PreviewFinalImage),
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Q_ARG(uint, PREVIEW_SIZE),
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Q_ARG(uint, PREVIEW_SIZE));
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//treeItem->SetImage(m_PreviewFinalImage, PREVIEW_SIZE, PREVIEW_SIZE);
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}
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}
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}
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}
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m_PreviewRun = false;
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m_PreviewRunning = false;
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};
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}
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/// <summary>
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/// Empty destructor that does nothing.
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/// </summary>
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template <typename T>
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FractoriumEmberController<T>::~FractoriumEmberController() { }
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/// <summary>
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/// Setters for embers, ember files and palettes which convert between float and double types.
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/// These are used to preserve the current ember/file when switching between renderers.
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/// Note that some precision will be lost when going from double to float.
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/// </summary>
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template <typename T> void FractoriumEmberController<T>::SetEmber(const Ember<float>& ember, bool verbatim) { SetEmberPrivate<float>(ember, verbatim); }
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template <typename T> void FractoriumEmberController<T>::CopyEmber(Ember<float>& ember, std::function<void(Ember<float>& ember)> perEmberOperation) { ember = m_Ember; perEmberOperation(ember); }
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template <typename T> void FractoriumEmberController<T>::SetEmberFile(const EmberFile<float>& emberFile) { m_EmberFile = emberFile; }
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template <typename T> void FractoriumEmberController<T>::CopyEmberFile(EmberFile<float>& emberFile, std::function<void(Ember<float>& ember)> perEmberOperation)
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{
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emberFile.m_Filename = m_EmberFile.m_Filename;
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CopyVec(emberFile.m_Embers, m_EmberFile.m_Embers, perEmberOperation);
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}
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template <typename T> void FractoriumEmberController<T>::SetTempPalette(const Palette<float>& palette) { m_TempPalette = palette; }
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template <typename T> void FractoriumEmberController<T>::CopyTempPalette(Palette<float>& palette) { palette = m_TempPalette; }
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#ifdef DO_DOUBLE
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template <typename T> void FractoriumEmberController<T>::SetEmber(const Ember<double>& ember, bool verbatim) { SetEmberPrivate<double>(ember, verbatim); }
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template <typename T> void FractoriumEmberController<T>::CopyEmber(Ember<double>& ember, std::function<void(Ember<double>& ember)> perEmberOperation) { ember = m_Ember; perEmberOperation(ember); }
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template <typename T> void FractoriumEmberController<T>::SetEmberFile(const EmberFile<double>& emberFile) { m_EmberFile = emberFile; }
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template <typename T> void FractoriumEmberController<T>::CopyEmberFile(EmberFile<double>& emberFile, std::function<void(Ember<double>& ember)> perEmberOperation)
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{
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emberFile.m_Filename = m_EmberFile.m_Filename;
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CopyVec(emberFile.m_Embers, m_EmberFile.m_Embers, perEmberOperation);
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}
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template <typename T> void FractoriumEmberController<T>::SetTempPalette(const Palette<double>& palette) { m_TempPalette = palette; }
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template <typename T> void FractoriumEmberController<T>::CopyTempPalette(Palette<double>& palette) { palette = m_TempPalette; }
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#endif
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template <typename T> Ember<T>* FractoriumEmberController<T>::CurrentEmber() { return &m_Ember; }
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template <typename T>
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void FractoriumEmberController<T>::ConstrainDimensions(Ember<T>& ember)
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{
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ember.m_FinalRasW = std::min<int>(m_Fractorium->ui.GLDisplay->MaxTexSize(), ember.m_FinalRasW);
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ember.m_FinalRasH = std::min<int>(m_Fractorium->ui.GLDisplay->MaxTexSize(), ember.m_FinalRasH);
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}
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/// <summary>
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/// Set the ember at the specified index from the currently opened file as the current Ember.
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/// Clears the undo state.
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/// Resets the rendering process.
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/// </summary>
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/// <param name="index">The index in the file from which to retrieve the ember</param>
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template <typename T>
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void FractoriumEmberController<T>::SetEmber(size_t index)
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{
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if (index < m_EmberFile.Size())
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{
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if (QTreeWidgetItem* top = m_Fractorium->ui.LibraryTree->topLevelItem(0))
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{
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for (uint i = 0; i < top->childCount(); i++)
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{
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if (EmberTreeWidgetItem<T>* emberItem = dynamic_cast<EmberTreeWidgetItem<T>*>(top->child(i)))
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emberItem->setSelected(i == index);
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}
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}
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ClearUndo();
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SetEmber(m_EmberFile.m_Embers[index]);
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}
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}
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/// <summary>
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/// Wrapper to call a function, then optionally add the requested action to the rendering queue.
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/// </summary>
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/// <param name="func">The function to call</param>
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/// <param name="updateRender">True to update renderer, else false. Default: false.</param>
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/// <param name="action">The action to add to the rendering queue. Default: FULL_RENDER.</param>
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template <typename T>
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void FractoriumEmberController<T>::Update(std::function<void (void)> func, bool updateRender, eProcessAction action)
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{
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func();
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if (updateRender)
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UpdateRender(action);
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}
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/// <summary>
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/// Wrapper to call a function on the current xform, then optionally add the requested action to the rendering queue.
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/// </summary>
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/// <param name="func">The function to call</param>
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/// <param name="updateRender">True to update renderer, else false. Default: true.</param>
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/// <param name="action">The action to add to the rendering queue. Default: FULL_RENDER.</param>
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template <typename T>
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void FractoriumEmberController<T>::UpdateCurrentXform(std::function<void (Xform<T>*)> func, bool updateRender, eProcessAction action)
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{
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if (Xform<T>* xform = CurrentXform())
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{
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func(xform);
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if (updateRender)
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UpdateRender(action);
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}
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}
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/// <summary>
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/// Set the current ember, but use GUI values for the fields which make sense to
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/// keep the same between ember selection changes.
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/// Note the extra template parameter U allows for assigning ember of different types.
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/// Resets the rendering process.
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/// </summary>
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/// <param name="ember">The ember to set as the current</param>
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template <typename T>
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template <typename U>
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void FractoriumEmberController<T>::SetEmberPrivate(const Ember<U>& ember, bool verbatim)
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{
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if (ember.m_Name != m_Ember.m_Name)
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m_LastSaveCurrent = "";
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m_Ember = ember;
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if (!verbatim)
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{
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//m_Ember.SetSizeAndAdjustScale(m_Fractorium->ui.GLDisplay->width(), m_Fractorium->ui.GLDisplay->height(), true, SCALE_WIDTH);
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m_Ember.m_TemporalSamples = 1;//Change once animation is supported.
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m_Ember.m_Quality = m_Fractorium->m_QualitySpin->value();
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m_Ember.m_Supersample = m_Fractorium->m_SupersampleSpin->value();
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}
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m_Fractorium->FillXforms();//Must do this first because the palette setup in FillParamTablesAndPalette() uses the xforms combo.
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FillParamTablesAndPalette();
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}
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template class FractoriumEmberController<float>;
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#ifdef DO_DOUBLE
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template class FractoriumEmberController<double>;
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#endif
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