fractorium/Source/Fractorium/FractoriumEmberController.h
mfeemster 991275a656 --User changes
-Add a button to randomize both pre and post affine transforms to values between -1 to 1.
2016-05-23 19:48:04 -07:00

527 lines
23 KiB
C++

#pragma once
#include "EmberFile.h"
#include "DoubleSpinBox.h"
#include "GLEmberController.h"
/// <summary>
/// FractoriumEmberControllerBase and FractoriumEmberController<T> classes.
/// </summary>
/// <summary>
/// An enum representing the type of edit being done.
/// </summary>
enum class eEditUndoState : et { REGULAR_EDIT, UNDO_REDO, EDIT_UNDO };
/// <summary>
/// An enum representing which xforms an update should be applied to.
/// </summary>
enum class eXformUpdate : et { UPDATE_CURRENT, UPDATE_SELECTED, UPDATE_CURRENT_AND_SELECTED, UPDATE_SELECTED_EXCEPT_FINAL, UPDATE_ALL, UPDATE_ALL_EXCEPT_FINAL };
/// <summary>
/// An enum representing the type of synchronizing to do between the list of Embers kept in memory
/// and the widgets in the library tree.
/// </summary>
enum eLibraryUpdate { INDEX = 1, NAME = 2, POINTER = 4 };
/// <summary>
/// FractoriumEmberController and Fractorium need each other, but each can't include the other.
/// So Fractorium includes this file, and Fractorium is declared as a forward declaration here.
/// </summary>
class Fractorium;
#define PREVIEW_SIZE 256
#define UNDO_SIZE 128
/// <summary>
/// FractoriumEmberControllerBase serves as a non-templated base class with virtual
/// functions which will be overridden in a derived class that takes a template parameter.
/// The controller serves as a way to access both the Fractorium GUI and the underlying ember
/// objects through an interface that doesn't require template argument, but does allow
/// templated objects to be used underneath.
/// Note that there are a few functions which access a templated object, so for those both
/// versions for float and double must be provided, then overridden in the templated derived
/// class. It's definitely a design flaw, but C++ doesn't offer any alternative since
/// templated virtual functions are not supported.
/// The functions not implemented in this file can be found in the GUI files which use them.
/// </summary>
class FractoriumEmberControllerBase : public RenderCallback
{
public:
FractoriumEmberControllerBase(Fractorium* fractorium);
FractoriumEmberControllerBase(const FractoriumEmberControllerBase& controller) = delete;
virtual ~FractoriumEmberControllerBase();
//Embers.
virtual void SetEmber(const Ember<float>& ember, bool verbatim, bool updatePointer) { }
virtual void CopyEmber(Ember<float>& ember, std::function<void(Ember<float>& ember)> perEmberOperation/* = [&](Ember<float>& ember) { }*/) { }//Uncomment default lambdas once LLVM fixes a crash in their compiler with default lambda parameters.//TODO
virtual void SetEmberFile(const EmberFile<float>& emberFile) { }
virtual void CopyEmberFile(EmberFile<float>& emberFile, std::function<void(Ember<float>& ember)> perEmberOperation/* = [&](Ember<float>& ember) { }*/) { }
virtual void SetTempPalette(const Palette<float>& palette) { }
virtual void CopyTempPalette(Palette<float>& palette) { }
#ifdef DO_DOUBLE
virtual void SetEmber(const Ember<double>& ember, bool verbatim, bool updatePointer) { }
virtual void CopyEmber(Ember<double>& ember, std::function<void(Ember<double>& ember)> perEmberOperation/* = [&](Ember<double>& ember) { }*/) { }
virtual void SetEmberFile(const EmberFile<double>& emberFile) { }
virtual void CopyEmberFile(EmberFile<double>& emberFile, std::function<void(Ember<double>& ember)> perEmberOperation/* = [&](Ember<double>& ember) { }*/) { }
virtual void SetTempPalette(const Palette<double>& palette) { }
virtual void CopyTempPalette(Palette<double>& palette) { }
#endif
virtual void SetEmber(size_t index, bool verbatim) { }
//virtual void Clear() { }
virtual void AddXform() { }
virtual void AddLinkedXform() { }
virtual void DuplicateXform() { }
virtual void ClearXform() { }
virtual void DeleteXforms() { }
virtual void AddFinalXform() { }
virtual bool UseFinalXform() { return false; }
virtual size_t XformCount() const { return 0; }
virtual size_t TotalXformCount() const { return 0; }
virtual QString Name() const { return ""; }
virtual void Name(const string& s) { }
virtual size_t FinalRasW() const { return 0; }
virtual void FinalRasW(size_t w) { }
virtual size_t FinalRasH() const { return 0; }
virtual void FinalRasH(size_t h) { }
virtual size_t Index() const { return 0; }
virtual void AddSymmetry(int sym, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) { }
virtual void CalcNormalizedWeights() { }
//Menu.
virtual void NewFlock(size_t count) { }//File.
virtual void NewEmptyFlameInCurrentFile() { }
virtual void NewRandomFlameInCurrentFile() { }
virtual void CopyFlameInCurrentFile() { }
virtual void OpenAndPrepFiles(const QStringList& filenames, bool append) { }
virtual void SaveCurrentAsXml() { }
virtual void SaveEntireFileAsXml() { }
virtual uint SaveCurrentToOpenedFile() { return 0; }
virtual void Undo() { }//Edit.
virtual void Redo() { }
virtual void CopyXml() { }
virtual void CopyAllXml() { }
virtual void PasteXmlAppend() { }
virtual void PasteXmlOver() { }
virtual void CopySelectedXforms() { }
virtual void PasteSelectedXforms() { }
virtual void AddReflectiveSymmetry() { }//Tools.
virtual void AddRotationalSymmetry() { }
virtual void AddBothSymmetry() { }
virtual void Flatten() { }
virtual void Unflatten() { }
virtual void ClearFlame() { }
//Toolbar.
//Library.
virtual void SyncLibrary(eLibraryUpdate update) { }
virtual void FillLibraryTree(int selectIndex = -1) { }
virtual void UpdateLibraryTree() { }
virtual void EmberTreeItemChanged(QTreeWidgetItem* item, int col) { }
virtual void EmberTreeItemDoubleClicked(QTreeWidgetItem* item, int col) { }
virtual void RenderPreviews(uint start = UINT_MAX, uint end = UINT_MAX) { }
virtual void StopPreviewRender() { }
virtual void MoveLibraryItems(int startRow, int destRow) { }
virtual void Delete(const pair<size_t, QTreeWidgetItem*>& p) { }
//Params.
virtual void SetCenter(double x, double y) { }
virtual void FillParamTablesAndPalette() { }
virtual void BrightnessChanged(double d) { }
virtual void GammaChanged(double d) { }
virtual void GammaThresholdChanged(double d) { }
virtual void VibrancyChanged(double d) { }
virtual void HighlightPowerChanged(double d) { }
virtual void PaletteModeChanged(uint i) { }
virtual void WidthChanged(uint i) { }
virtual void HeightChanged(uint i) { }
virtual void CenterXChanged(double d) { }
virtual void CenterYChanged(double d) { }
virtual void ScaleChanged(double d) { }
virtual void ZoomChanged(double d) { }
virtual void RotateChanged(double d) { }
virtual void ZPosChanged(double d) { }
virtual void PerspectiveChanged(double d) { }
virtual void PitchChanged(double d) { }
virtual void YawChanged(double d) { }
virtual void DepthBlurChanged(double d) { }
virtual void SpatialFilterWidthChanged(double d) { }
virtual void SpatialFilterTypeChanged(const QString& text) { }
virtual void TemporalFilterWidthChanged(double d) { }
virtual void TemporalFilterTypeChanged(const QString& text) { }
virtual void DEFilterMinRadiusWidthChanged(double d) { }
virtual void DEFilterMaxRadiusWidthChanged(double d) { }
virtual void DEFilterCurveWidthChanged(double d) { }
virtual void SbsChanged(int d) { }
virtual void FuseChanged(int d) { }
virtual void QualityChanged(double d) { }
virtual void SupersampleChanged(int d) { }
virtual void TemporalSamplesChanged(int d) { }
virtual void AffineInterpTypeChanged(int i) { }
virtual void InterpTypeChanged(int i) { }
virtual void BackgroundChanged(const QColor& color) { }
virtual void ClearColorCurves() { }
virtual void ColorCurveChanged(int curveIndex, int pointInxed, const QPointF& point) { }
//Xforms.
virtual void CurrentXformComboChanged(int index) { }
virtual void XformWeightChanged(double d) { }
virtual void EqualizeWeights() { }
virtual void XformNameChanged(int row, int col) { }
virtual void XformAnimateChanged(int state) { }
virtual void FillXforms(int index = 0) { }
//Xforms Affine.
virtual void AffineSetHelper(double d, int index, bool pre) { }
virtual void FlipXforms(bool horizontal, bool vertical, bool pre) { }
virtual void RotateXformsByAngle(double angle, bool pre) { }
virtual void MoveXforms(double x, double y, bool pre) { }
virtual void ScaleXforms(double scale, bool pre) { }
virtual void ResetXformsAffine(bool pre) { }
virtual void RandomXformsAffine(bool pre) { }
virtual void FillBothAffines() { }
double LockedScale() { return m_LockedScale; }
void LockedScale(double scale) { m_LockedScale = scale; }
virtual void LockAffineScaleCheckBoxStateChanged(int state) { }
//Xforms Color.
virtual void XformColorIndexChanged(double d, bool updateRender) { }
virtual void XformScrollColorIndexChanged(int d) { }
virtual void RandomColorIndicesButtonClicked() { }
virtual void ToggleColorIndicesButtonClicked() { }
virtual void XformColorSpeedChanged(double d) { }
virtual void XformOpacityChanged(double d) { }
virtual void XformDirectColorChanged(double d) { }
virtual QColor ColorIndexToQColor(double d) { return QColor(); }
//Xforms Variations.
virtual void Filter(const QString& text) { }
virtual void SetupVariationsTree() { }
virtual void ClearVariationsTree() { }
virtual void VariationSpinBoxValueChanged(double d) { }
virtual void FilteredVariations() { }
//Xforms Selection.
//Xaos.
virtual void FillXaos() { }
virtual void XaosChanged(int x, int y, double val) { }
virtual void ClearXaos() { }
virtual void RandomXaos() { }
//Palette.
virtual size_t InitPaletteList(const string& s) { return 0; }
virtual bool FillPaletteTable(const string& s) { return false; }
virtual void ApplyPaletteToEmber() { }
virtual void PaletteAdjust() { }
virtual void PaletteCellClicked(int row, int col) { }
QImage& FinalPaletteImage() { return m_FinalPaletteImage; }
//Info.
virtual void FillSummary() { }
//Rendering/progress.
virtual bool Render() { return false; }
virtual bool CreateRenderer(eRendererType renderType, const vector<pair<size_t, size_t>>& devices, bool shared = true) { return false; }
virtual uint SizeOfT() const { return 0; }
virtual void ClearUndo() { }
virtual GLEmberControllerBase* GLController() { return nullptr; }
bool RenderTimerRunning();
void StartRenderTimer();
void DelayedStartRenderTimer();
void StopRenderTimer(bool wait);
void ClearFinalImages();
void Shutdown();
void UpdateRender(eProcessAction action = eProcessAction::FULL_RENDER);
void DeleteRenderer();
void SaveCurrentRender(const QString& filename, const EmberImageComments& comments, vector<byte>& pixels, size_t width, size_t height, size_t channels, size_t bpc);
RendererBase* Renderer() { return m_Renderer.get(); }
vector<byte>* FinalImage() { return &(m_FinalImage); }
vector<byte>* PreviewFinalImage() { return &m_PreviewFinalImage; }
EmberStats Stats() { return m_Stats; }
protected:
//Rendering/progress.
void AddProcessAction(eProcessAction action);
eProcessAction CondenseAndClearProcessActions();
eProcessState ProcessState() { return m_Renderer.get() ? m_Renderer->ProcessState() : eProcessState::NONE; }
//Non-templated members.
bool m_Rendering = false;
bool m_Shared = true;
bool m_LastEditWasUndoRedo;
vector<pair<size_t, size_t>> m_Devices;
size_t m_SubBatchCount = 1;//Will be ovewritten by the options on first render.
uint m_FailedRenders = 0;
size_t m_UndoIndex = 0;
double m_LockedScale = 1;
eRendererType m_RenderType = eRendererType::CPU_RENDERER;
eEditUndoState m_EditState;
GLuint m_OutputTexID = 0;
Timing m_RenderElapsedTimer;
EmberStats m_Stats;
QImage m_FinalPaletteImage;
QString m_LastSaveAll;
QString m_LastSaveCurrent;
string m_CurrentPaletteFilePath;
std::recursive_mutex m_Cs;
std::thread m_WriteThread;
vector<byte> m_FinalImage;
vector<byte> m_PreviewFinalImage;
vector<eProcessAction> m_ProcessActions;
vector<eVariationId> m_FilteredVariations;
unique_ptr<EmberNs::RendererBase> m_Renderer;
QTIsaac<ISAAC_SIZE, ISAAC_INT> m_Rand;
Fractorium* m_Fractorium;
std::unique_ptr<QTimer> m_RenderTimer;
std::unique_ptr<QTimer> m_RenderRestartTimer;
shared_ptr<OpenCLInfo> m_Info = OpenCLInfo::Instance();
};
/// <summary>
/// Templated derived class which implements all interaction functionality between the embers
/// of a specific template type and the GUI.
/// Switching between template arguments requires complete re-creation of the controller and the
/// underlying renderer. Switching between CPU and OpenCL only requires re-creation of the renderer.
/// </summary>
template<typename T>
class FractoriumEmberController : public FractoriumEmberControllerBase
{
public:
FractoriumEmberController(Fractorium* fractorium);
FractoriumEmberController(const FractoriumEmberController<T>& controller) = delete;
virtual ~FractoriumEmberController();
//Embers.
virtual void SetEmber(const Ember<float>& ember, bool verbatim, bool updatePointer) override;
virtual void CopyEmber(Ember<float>& ember, std::function<void(Ember<float>& ember)> perEmberOperation/* = [&](Ember<float>& ember) { }*/) override;
virtual void SetEmberFile(const EmberFile<float>& emberFile) override;
virtual void CopyEmberFile(EmberFile<float>& emberFile, std::function<void(Ember<float>& ember)> perEmberOperation/* = [&](Ember<float>& ember) { }*/) override;
virtual void SetTempPalette(const Palette<float>& palette) override;
virtual void CopyTempPalette(Palette<float>& palette) override;
#ifdef DO_DOUBLE
virtual void SetEmber(const Ember<double>& ember, bool verbatim, bool updatePointer) override;
virtual void CopyEmber(Ember<double>& ember, std::function<void(Ember<double>& ember)> perEmberOperation/* = [&](Ember<double>& ember) { }*/) override;
virtual void SetEmberFile(const EmberFile<double>& emberFile) override;
virtual void CopyEmberFile(EmberFile<double>& emberFile, std::function<void(Ember<double>& ember)> perEmberOperation/* = [&](Ember<double>& ember) { }*/) override;
virtual void SetTempPalette(const Palette<double>& palette) override;
virtual void CopyTempPalette(Palette<double>& palette) override;
#endif
virtual void SetEmber(size_t index, bool verbatim) override;
//virtual void Clear() override { }
virtual void AddXform() override;
virtual void AddLinkedXform() override;
virtual void DuplicateXform() override;
virtual void ClearXform() override;
virtual void DeleteXforms() override;
virtual void AddFinalXform() override;
virtual bool UseFinalXform() override { return m_Ember.UseFinalXform(); }
//virtual bool IsFinal(uint i) { return false; }
virtual size_t XformCount() const override { return m_Ember.XformCount(); }
virtual size_t TotalXformCount() const override { return m_Ember.TotalXformCount(); }
virtual QString Name() const override { return QString::fromStdString(m_Ember.m_Name); }
virtual void Name(const string& s) override { m_Ember.m_Name = s; }
virtual size_t FinalRasW() const override { return m_Ember.m_FinalRasW; }
virtual void FinalRasW(size_t w) override { m_Ember.m_FinalRasW = w; }
virtual size_t FinalRasH() const override { return m_Ember.m_FinalRasH; }
virtual void FinalRasH(size_t h) override { m_Ember.m_FinalRasH = h; }
virtual size_t Index() const override { return m_Ember.m_Index; }
virtual void AddSymmetry(int sym, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override { m_Ember.AddSymmetry(sym, rand); }
virtual void CalcNormalizedWeights() override { m_Ember.CalcNormalizedWeights(m_NormalizedWeights); }
void ConstrainDimensions(Ember<T>& ember);
Ember<T>* CurrentEmber();
//Menu.
virtual void NewFlock(size_t count) override;
virtual void NewEmptyFlameInCurrentFile() override;
virtual void NewRandomFlameInCurrentFile() override;
virtual void CopyFlameInCurrentFile() override;
virtual void OpenAndPrepFiles(const QStringList& filenames, bool append) override;
virtual void SaveCurrentAsXml() override;
virtual void SaveEntireFileAsXml() override;
virtual uint SaveCurrentToOpenedFile() override;
virtual void Undo() override;
virtual void Redo() override;
virtual void CopyXml() override;
virtual void CopyAllXml() override;
virtual void PasteXmlAppend() override;
virtual void PasteXmlOver() override;
virtual void CopySelectedXforms() override;
virtual void PasteSelectedXforms() override;
virtual void AddReflectiveSymmetry() override;
virtual void AddRotationalSymmetry() override;
virtual void AddBothSymmetry() override;
virtual void Flatten() override;
virtual void Unflatten() override;
virtual void ClearFlame() override;
//Toolbar.
//Library.
virtual void SyncLibrary(eLibraryUpdate update) override;
virtual void FillLibraryTree(int selectIndex = -1) override;
virtual void UpdateLibraryTree() override;
virtual void MoveLibraryItems(int startRow, int destRow) override;
virtual void Delete(const pair<size_t, QTreeWidgetItem*>& p) override;
virtual void EmberTreeItemChanged(QTreeWidgetItem* item, int col) override;
virtual void EmberTreeItemDoubleClicked(QTreeWidgetItem* item, int col) override;
virtual void RenderPreviews(uint start = UINT_MAX, uint end = UINT_MAX) override;
virtual void StopPreviewRender() override;
//Params.
virtual void SetCenter(double x, double y) override;
virtual void FillParamTablesAndPalette() override;
virtual void BrightnessChanged(double d) override;
virtual void GammaChanged(double d) override;
virtual void GammaThresholdChanged(double d) override;
virtual void VibrancyChanged(double d) override;
virtual void HighlightPowerChanged(double d) override;
virtual void PaletteModeChanged(uint i) override;
virtual void WidthChanged(uint i) override;
virtual void HeightChanged(uint i) override;
virtual void CenterXChanged(double d) override;
virtual void CenterYChanged(double d) override;
virtual void ScaleChanged(double d) override;
virtual void ZoomChanged(double d) override;
virtual void RotateChanged(double d) override;
virtual void ZPosChanged(double d) override;
virtual void PerspectiveChanged(double d) override;
virtual void PitchChanged(double d) override;
virtual void YawChanged(double d) override;
virtual void DepthBlurChanged(double d) override;
virtual void SpatialFilterWidthChanged(double d) override;
virtual void SpatialFilterTypeChanged(const QString& text) override;
virtual void TemporalFilterWidthChanged(double d) override;
virtual void TemporalFilterTypeChanged(const QString& text) override;
virtual void DEFilterMinRadiusWidthChanged(double d) override;
virtual void DEFilterMaxRadiusWidthChanged(double d) override;
virtual void DEFilterCurveWidthChanged(double d) override;
virtual void SbsChanged(int d) override;
virtual void FuseChanged(int d) override;
virtual void QualityChanged(double d) override;
virtual void SupersampleChanged(int d) override;
virtual void TemporalSamplesChanged(int d) override;
virtual void AffineInterpTypeChanged(int index) override;
virtual void InterpTypeChanged(int index) override;
virtual void BackgroundChanged(const QColor& col) override;
virtual void ClearColorCurves() override;
virtual void ColorCurveChanged(int curveIndex, int pointInxed, const QPointF& point) override;
//Xforms.
virtual void CurrentXformComboChanged(int index) override;
virtual void XformWeightChanged(double d) override;
virtual void EqualizeWeights() override;
virtual void XformNameChanged(int row, int col) override;
virtual void XformAnimateChanged(int state) override;
virtual void FillXforms(int index = 0) override;
void FillWithXform(Xform<T>* xform);
Xform<T>* CurrentXform();
void UpdateXform(std::function<void(Xform<T>*)> func, eXformUpdate updateType = eXformUpdate::UPDATE_CURRENT, bool updateRender = true, eProcessAction action = eProcessAction::FULL_RENDER);
//Xforms Affine.
virtual void AffineSetHelper(double d, int index, bool pre) override;
virtual void FlipXforms(bool horizontal, bool vertical, bool pre) override;
virtual void RotateXformsByAngle(double angle, bool pre) override;
virtual void MoveXforms(double x, double y, bool pre) override;
virtual void ScaleXforms(double scale, bool pre) override;
virtual void ResetXformsAffine(bool pre) override;
virtual void RandomXformsAffine(bool pre) override;
virtual void FillBothAffines() override;
virtual void LockAffineScaleCheckBoxStateChanged(int state) override;
void FillAffineWithXform(Xform<T>* xform, bool pre);
T AffineScaleCurrentToLocked();
T AffineScaleLockedToCurrent();
//Xforms Color.
virtual void XformColorIndexChanged(double d, bool updateRender) override;
virtual void XformScrollColorIndexChanged(int d) override;
virtual void RandomColorIndicesButtonClicked() override;
virtual void ToggleColorIndicesButtonClicked() override;
virtual void XformColorSpeedChanged(double d) override;
virtual void XformOpacityChanged(double d) override;
virtual void XformDirectColorChanged(double d) override;
virtual QColor ColorIndexToQColor(double d) override;
void FillColorWithXform(Xform<T>* xform);
//Xforms Variations.
virtual void Filter(const QString& text) override;
virtual void SetupVariationsTree() override;
virtual void ClearVariationsTree() override;
virtual void VariationSpinBoxValueChanged(double d) override;
virtual void FilteredVariations() override;
void FillVariationTreeWithXform(Xform<T>* xform);
//Xforms Xaos.
virtual void FillXaos() override;
virtual void XaosChanged(int x, int y, double val) override;
virtual void ClearXaos() override;
virtual void RandomXaos() override;
//Palette.
virtual size_t InitPaletteList(const string& s) override;
virtual bool FillPaletteTable(const string& s) override;
virtual void ApplyPaletteToEmber() override;
virtual void PaletteAdjust() override;
virtual void PaletteCellClicked(int row, int col) override;
//Info.
virtual void FillSummary() override;
//Rendering/progress.
virtual bool Render() override;
virtual bool CreateRenderer(eRendererType renderType, const vector<pair<size_t, size_t>>& devices, bool shared = true) override;
virtual uint SizeOfT() const override { return sizeof(T); }
virtual int ProgressFunc(Ember<T>& ember, void* foo, double fraction, int stage, double etaMs) override;
virtual void ClearUndo() override;
virtual GLEmberControllerBase* GLController() override { return m_GLController.get(); }
private:
//Embers.
void ApplyXmlSavingTemplate(Ember<T>& ember);
template <typename U> void SetEmberPrivate(const Ember<U>& ember, bool verbatim, bool updatePointer);
//Params.
void ParamsToEmber(Ember<T>& ember);
//Xforms.
void SetNormalizedWeightText(Xform<T>* xform);
bool IsFinal(Xform<T>* xform);
//Xforms Color.
void FillCurvesControl();
//Xforms Selection.
QString MakeXformCaption(size_t i);
bool XformCheckboxAt(int i, std::function<void(QCheckBox*)> func);
bool XformCheckboxAt(Xform<T>* xform, std::function<void(QCheckBox*)> func);
//Palette.
void UpdateAdjustedPaletteGUI(Palette<T>& palette);
//Rendering/progress.
void Update(std::function<void (void)> func, bool updateRender = true, eProcessAction action = eProcessAction::FULL_RENDER);
void UpdateAll(std::function<void (Ember<T>&)> func, bool updateRender = true, eProcessAction action = eProcessAction::FULL_RENDER, bool applyAll = false);
bool SyncSizes();
//Templated members.
bool m_PreviewRun = false;
bool m_PreviewRunning = false;
vector<T> m_TempOpacities;
vector<T> m_NormalizedWeights;
Ember<T> m_Ember;
const void* m_EmberFilePointer = nullptr;
EmberFile<T> m_EmberFile;
deque<Ember<T>> m_UndoList;
vector<Xform<T>> m_CopiedXforms;
Xform<T> m_CopiedFinalXform;
Palette<T> m_TempPalette;
PaletteList<T> m_PaletteList;
shared_ptr<VariationList<T>> m_VariationList;
unique_ptr<SheepTools<T, float>> m_SheepTools;
unique_ptr<GLEmberController<T>> m_GLController;
unique_ptr<EmberNs::Renderer<T, float>> m_PreviewRenderer = make_unique<EmberNs::Renderer<T, float>>();
QFuture<void> m_PreviewResult;
std::function<void (uint, uint)> m_PreviewRenderFunc;
};