3ds Max C++ API Reference
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StdControl Class Referenceabstract

#include <control.h>

+ Inheritance diagram for StdControl:

Public Member Functions

virtual void GetValueLocalTime (TimeValue t, void *val, Interval &valid, GetSetMethod method=CTRL_ABSOLUTE)=0
 
void GetValueLocalTime (TimeValue t, void *val, GetSetMethod method=CTRL_ABSOLUTE)
 
virtual void SetValueLocalTime (TimeValue t, void *val, int commit=1, GetSetMethod method=CTRL_ABSOLUTE)=0
 
CoreExport void GetValue (TimeValue t, void *val, Interval &valid, GetSetMethod method=CTRL_ABSOLUTE) override
 
CoreExport void SetValue (TimeValue t, void *val, int commit=1, GetSetMethod method=CTRL_ABSOLUTE) override
 
CoreExport bool GetLocalTMComponents (TimeValue t, TMComponentsArg &cmpts, Matrix3Indirect &parentMatrix) override
 
virtual void Extrapolate (Interval range, TimeValue t, void *val, Interval &valid, int type)=0
 
virtual voidCreateTempValue ()=0
 
virtual void DeleteTempValue (void *val)=0
 
virtual void ApplyValue (void *val, void *delta)=0
 
virtual void MultiplyValue (void *val, float m)=0
 
- Public Member Functions inherited from Control
CoreExport Control ()
 
virtual ~Control ()
 
virtual BOOL InheritsParentTransform ()
 
CoreExport int NumRefs ()
 Returns the total number of references this ReferenceMaker can hold.
 
CoreExport RefTargetHandle GetReference (int i)
 Returns the 'i-th' reference.
 
CoreExport int NumSubs ()
 
CoreExport AnimatableSubAnim (int i)
 
CoreExport MSTR SubAnimName (int i, bool localized=true) override
 
CoreExport voidGetInterface (ULONG id)
 
CoreExport int PaintFCurves (ParamDimensionBase *dim, HDC hdc, Rect &rcGraph, Rect &rcPaint, float tzoom, int tscroll, float vzoom, int vscroll, DWORD flags)
 
CoreExport int GetFCurveExtents (ParamDimensionBase *dim, float &min, float &max, DWORD flags)
 This method is called to calculate the largest and smallest values of the anim.
 
virtual CoreExport void BaseClone (ReferenceTarget *from, ReferenceTarget *to, RemapDir &remap)
 
virtual BOOL PreventNodeDeletion ()
 
virtual CoreExport float EvalVisibility (TimeValue t, View &view, Box3 pbox, Interval &valid)
 
virtual BOOL VisibleInViewports ()
 
virtual BOOL CanInstanceController ()
 
CoreExport void CloneControl (Control *ctrl, RemapDir &remap)
 
virtual CoreExport SvGraphNodeReference SvTraverseAnimGraph (IGraphObjectManager *gom, Animatable *object, int id, DWORD flags)
 
virtual CoreExport MSTR SvGetName (IGraphObjectManager *gom, IGraphNode *gNode, bool isBeingEdited)
 
virtual CoreExport bool SvHandleDoubleClick (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport bool SvCanInitiateLink (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport bool SvCanConcludeLink (IGraphObjectManager *gom, IGraphNode *gNode, IGraphNode *gNodeChild)
 
virtual CoreExport bool SvLinkChild (IGraphObjectManager *gom, IGraphNode *gNodeThis, IGraphNode *gNodeChild)
 
virtual CoreExport bool SvEditProperties (IGraphObjectManager *gom, IGraphNode *gNode)
 
CoreExport voidGetInterface (ULONG id) override
 Inherited from Animatable.
 
CoreExport BaseInterfaceGetInterface (Interface_ID id) override
 Inherited from Animatable.
 
virtual void Copy (Control *from)=0
 
virtual BOOL IsReplaceable ()
 
virtual void CommitValue (TimeValue t)
 
virtual void RestoreValue (TimeValue t)
 
virtual INodeGetTarget ()
 
virtual RefResult SetTarget (INode *targ)
 
virtual ControlGetPositionController ()
 
virtual ControlGetRotationController ()
 
virtual ControlGetScaleController ()
 
virtual BOOL SetPositionController (Control *c)
 
virtual BOOL SetRotationController (Control *c)
 
virtual BOOL SetScaleController (Control *c)
 
virtual ControlGetXController ()
 
virtual ControlGetYController ()
 
virtual ControlGetZController ()
 
virtual ControlGetWController ()
 
virtual ControlGetRollController ()
 
virtual BOOL SetRollController (Control *c)
 
virtual DWORD GetInheritanceFlags ()
 
virtual BOOL SetInheritanceFlags (DWORD f, BOOL keepPos)
 
virtual BOOL ChangeParents (TimeValue t, const Matrix3 &oldP, const Matrix3 &newP, const Matrix3 &tm)
 
virtual RefResult PinNodeChanged (RefMessage message, const Interval &changeInt, PartID &partID)
 
virtual BOOL IsColorController ()
 
virtual BOOL IsLeaf ()
 
virtual int IsKeyable ()
 
void GetValue (TimeValue t1, void *val1, GetSetMethod method1=CTRL_ABSOLUTE)
 
void GetValue (TimeValue t1, void *val1, Interval &&, GetSetMethod method1=CTRL_ABSOLUTE)
 
virtual int GetORT (int type)
 
virtual CoreExport void SetORT (int ort, int type)
 
virtual CoreExport void EnableORTs (BOOL enable)
 
CoreExport IOResult Save (ISave *isave)
 
CoreExport IOResult Load (ILoad *iload)
 
virtual void EnumIKParams (IKEnumCallback &callback)
 
virtual BOOL CompDeriv (TimeValue t, Matrix3 &ptm, IKDeriv &derivs, DWORD flags)
 
virtual float IncIKParam (TimeValue t, int index, float delta)
 
virtual void ClearIKParam (Interval iv, int index)
 
virtual void InitIKJoints (InitJointData *posData, InitJointData *rotData)
 
virtual BOOL GetIKJoints (InitJointData *posData, InitJointData *rotData)
 
virtual BOOL GetDOFParams (TimeValue t, Matrix3 &ptm, DOFParams &dofs, BOOL nodeSel)
 
virtual BOOL CreateLockKey (TimeValue t, int which)
 
virtual void MirrorIKConstraints (int axis, int which, BOOL pasteMirror=FALSE)
 
virtual BOOL TerminateIK ()
 
virtual void InitIKJoints2 (InitJointData2 *posData, InitJointData2 *rotData)
 
virtual BOOL GetIKJoints2 (InitJointData2 *posData, InitJointData2 *rotData)
 
virtual void NodeIKParamsChanged ()
 
virtual void TMInvalidated ()
 
virtual BOOL OKToBindToNode (INode *node)
 
virtual BOOL CanCopyIKParams (int which)
 
virtual IKClipObjectCopyIKParams (int which)
 
virtual BOOL CanPasteIKParams (IKClipObject *co, int which)
 
virtual void PasteIKParams (IKClipObject *co, int which)
 
virtual BOOL CanApplyEaseMultCurves ()
 
CoreExport TimeValue ApplyEase (TimeValue t, Interval &valid)
 
CoreExport void AppendEaseCurve (Control *cont)
 
CoreExport void DeleteEaseCurve (int i)
 
CoreExport ControlGetEaseCurve (int i)
 
CoreExport int NumEaseCurves ()
 
CoreExport float GetMultVal (TimeValue t, Interval &valid)
 
CoreExport void AppendMultCurve (Control *cont)
 
CoreExport void DeleteMultCurve (int i)
 
CoreExport ControlGetMultCurve (int i)
 
CoreExport int NumMultCurves ()
 
virtual void PostCloneNode ()
 
virtual int Display (TimeValue t, INode *inode, ViewExp *vpt, int flags)
 
virtual int HitTest (TimeValue t, INode *inode, int type, int crossing, int flags, IPoint2 *p, ViewExp *vpt)
 
virtual void GetWorldBoundBox (TimeValue t, INode *inode, ViewExp *vpt, Box3 &box)
 
virtual void ActivateSubobjSel (int level, XFormModes &modes)
 
virtual void SelectSubComponent (CtrlHitRecord *hitRec, BOOL selected, BOOL all, BOOL invert=FALSE)
 
virtual void ClearSelection (int selLevel)
 
virtual int SubObjectIndex (CtrlHitRecord *hitRec)
 
virtual void SelectAll (int selLevel)
 
virtual void InvertSelection (int selLevel)
 
virtual void GetSubObjectCenters (SubObjAxisCallback *cb, TimeValue t, INode *node)
 
virtual void GetSubObjectTMs (SubObjAxisCallback *cb, TimeValue t, INode *node)
 
virtual void SubMove (TimeValue t, Matrix3 &partm, Matrix3 &tmAxis, Point3 &val, BOOL localOrigin=FALSE)
 
virtual void SubRotate (TimeValue t, Matrix3 &partm, Matrix3 &tmAxis, Quat &val, BOOL localOrigin=FALSE)
 
virtual void SubScale (TimeValue t, Matrix3 &partm, Matrix3 &tmAxis, Point3 &val, BOOL localOrigin=FALSE)
 
virtual BOOL RescaleTime (Interval oseg, Interval nseg)
 
virtual int GetDrawPixelStep ()
 
virtual int GetExtentTimeStep ()
 
- Public Member Functions inherited from ReferenceTarget
CoreExport void GetClassName (MSTR &s, bool localized=true) const override
 Retrieves the name of the plugin class.
 
CoreExport SClass_ID SuperClassID () override
 Retrieves a constant representing the type of the plugin.
 
BOOL IsRefTarget () override
 Checks if this is a ReferenceTarget.
 
CoreExport RefResult TestForLoop (const Interval &refInterval, RefMakerHandle hmaker)
 Tests for a cyclical reference.
 
CoreExport BOOL HasDependents ()
 Checks if a ReferenceTarget has references.
 
CoreExport BOOL HasRealDependents ()
 Checks if this has Real (Strong) Dependents.
 
void BeginDependencyTest ()
 Starts Dependency Test.
 
BOOL EndDependencyTest ()
 Ends Dependency Test.
 
virtual void RefAdded (RefMakerHandle rm)
 Called after a reference is made to a target.
 
virtual void RefAddedUndoRedo (RefMakerHandle rm)
 Called after a reference is made to a target because of undo or redo.
 
 __declspec (deprecated) virtual void RefDeleted() final
 
virtual void RefDeleted (ReferenceMaker *oldOwner)
 Called after a reference to this is deleted.
 
 __declspec (deprecated) virtual void RefDeletedUndoRedo() final
 
virtual void RefDeletedUndoRedo (RefMakerHandle oldOwner)
 Called after a reference to this is deleted because of undo or redo.
 
CoreExport RefResult DeleteAllRefsToMe () override
 Deletes all references to this ReferenceTarget.
 
CoreExport RefResult TransferReferences (RefTargetHandle oldTarget, BOOL delOld=FALSE)
 Transfers all the references from oldTarget to this.
 
CoreExport int DoEnumDependents (DependentEnumProc *dep)
 Begins an enumeration that searches back in the dependency network.
 
virtual CoreExport RefTargetHandle Clone (RemapDir &remap)
 This method is used by 3ds Max to clone an object.
 
CoreExport RefResult NotifyDependents (const Interval &changeInt, PartID partID, RefMessage message, SClass_ID sclass=NOTIFY_ALL, BOOL propagate=TRUE, RefTargetHandle hTarg=nullptr, NotifyDependentsOption notifyDependentsOption=REFNOTIFY_ALLOW_OPTIMIZATIONS) override
 Notify all dependent RefMakers concerned with the message.
 
void FlagDependents (TimeValue t, PartID which=PART_PUT_IN_FG)
 This sends the REFMSG_FLAGDEPENDENTS message up the pipeline.
 
virtual void NotifyForeground (TimeValue t)
 This method is called to flag dependents into the FG.
 
virtual void NotifyTarget (int message, ReferenceMaker *hMaker)
 Sends messages to ReferenceTargets.
 
CoreExport ReferenceTarget ()
 Constructor.
 
virtual CoreExport RefResult AutoDelete ()
 Deletes the object when it has no more real dependents.
 
CoreExport RefResult MaybeAutoDelete ()
 Deletes the object when it has no more real dependents.
 
- Public Member Functions inherited from ReferenceMaker
void GetClassName (MSTR &s, bool localized=true) const override
 Retrieves the name of the plugin class.
 
CoreExport SClass_ID SuperClassID () override
 Retrieves a constant representing the type of the plugin.
 
CoreExport RefResult ReplaceReference (int which, RefTargetHandle newtarg, BOOL delOld=TRUE)
 Used when cloning reference makers.
 
CoreExport RefResult DeleteAllRefsFromMe ()
 Deletes all references from this ReferenceMaker.
 
CoreExport RefResult DeleteAllRefs ()
 Deletes all references both to and from this item.
 
CoreExport RefResult DeleteReference (int i)
 Deletes the specified reference.
 
virtual BOOL CanTransferReference (int i)
 Tells whether this reference can be transfered.
 
CoreExport ReferenceSaveManagerGetReferenceSaveManager ()
 Access the ReferenceSaveManager of this ReferenceMaker.
 
virtual CoreExport IOResult Save (ISave *isave, ChannelMask)
 Access the ReferenceSaveManager of this ReferenceMaker.
 
virtual CoreExport IOResult Load (ILoad *iload, ChannelMask)
 Access the ReferenceSaveManager of this ReferenceMaker.
 
virtual int RemapRefOnLoad (int iref)
 Used to load old files with references.
 
virtual CoreExport void RescaleWorldUnits (float f)
 Rescale size of all world units in reference hierarchy.
 
CoreExport void EnumAuxFiles (AssetEnumCallback &assetEnum, DWORD flags) override
 Enumerate auxiliary files (e.g. bitmaps)
 
virtual CoreExport void SaveEnum (SaveEnumProc &sep, BOOL isNodeCall=0)
 The default save enumeration.
 
virtual CoreExport bool SpecifySaveReferences (ReferenceSaveManager &referenceSaveManager)
 Used to specify reference slot remapping during scene file save.
 
CoreExport int DoEnumDependents (DependentEnumProc *dep)
 Begins an enumeration that searches back in the dependency network.
 
CoreExport bool EnumRefHierarchy (RefEnumProc &proc, bool includeCustAttribs=true, bool includeIndirectRefs=true, bool includeNonPersistentRefs=true, bool preventDuplicatesViaFlag=true)
 This method provides a general purpose reference enumerator.
 
CoreExport int FindRef (RefTargetHandle rtarg)
 Get the index of the ReferenceTarget.
 
BOOL IsRefMaker () override
 Tells whether it is a ReferenceMaker.
 
virtual BOOL IsRealDependency (ReferenceTarget *rtarg)
 Returns whether this is a "real" (strong) dependency or not.
 
virtual BOOL ShouldPersistWeakRef (RefTargetHandle rtarg)
 Specifies whether a weak reference is to be persisted on a partial load or save.
 
CoreExport ReferenceMaker ()
 Constructor.
 
CoreExport void DeleteMe ()
 Deletes an instance of this class.
 
- Public Member Functions inherited from Animatable
virtual void FreeCaches ()
 
virtual int NumChildren ()
 
virtual AnimatableChildAnim (int i)
 
virtual CoreExport MSTR NodeName ()
 
virtual void EditTrack ()
 
virtual CoreExport BOOL SubAnimSetKeyBufferPresent (int subNum)
 returns true if the sub-anim has a "Set Key" buffer present
 
virtual BOOL SetKeyBufferPresent ()
 returns true if there is a "Set Key" buffer present
 
virtual CoreExport void SubAnimCommitSetKeyBuffer (TimeValue t, int subNum)
 Commit any "Set Key" buffers on the given sub-anim.
 
virtual void CommitSetKeyBuffer (TimeValue t)
 Commit any "Set Key" buffers.
 
virtual CoreExport void SubAnimRevertSetKeyBuffer (int subNum)
 Revert any "Set Key" buffers on the given sub-anim.
 
virtual void RevertSetKeyBuffer ()
 Revert any "Set Key" buffers.
 
virtual LRESULT CALLBACK TrackViewWinProc (HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
 This function is obsolete.
 
virtual BOOL IsRefMaker ()
 Tells whether it is a ReferenceMaker.
 
virtual bool IsParamBlockDesc2Used (ParamBlockDesc2 *desc)
 Returns true if the passed description is being used.
 
virtual bool GetMacroRecorderName (bool used_as_rhs_value, MSTR &objectSpecifiedName)
 This method is called to access the object specified name to use for the Maxscript macrorecorder.
 
CoreExport Animatable ()
 Constructor.
 
virtual CoreExport void DeleteThis ()
 Deletes an instance of this class.
 
MSTR ClassName (bool localized=true) const
 Returns the name of the plugin class.
 
virtual CoreExport Class_ID ClassID ()
 Retrieves a constant that uniquely identifies the plugin class.
 
virtual void BeginEditParams (IObjParam *ip, ULONG flags, Animatable *prev=NULL)
 
virtual void EndEditParams (IObjParam *ip, ULONG flags, Animatable *next=NULL)
 
virtual CoreExport void ReleaseInterface (ULONG id, void *i)
 
virtual CoreExport int SetProperty (ULONG id, void *data)
 
virtual CoreExport voidGetProperty (ULONG id)
 
CoreExport void AppendProperty (AnimProperty *prop)
 A function to directly add arbitrary properties to this object developers should ensure that the properties ID does not conflict with any Max-specific IDs.
 
CoreExport AnimPropertyFindProperty (DWORD id)
 Find any property.
 
CoreExport void AddAppDataChunk (const Class_ID &cid, SClass_ID sid, DWORD sbid, DWORD len, void *data)
 Adds application/plugin specific (custom) data to an Animatable.
 
CoreExport AppDataChunkGetAppDataChunk (const Class_ID &cid, SClass_ID sid, DWORD sbid)
 Retrieves the application/plugin specific (custom) data stored with an Animatable.
 
CoreExport BOOL RemoveAppDataChunk (const Class_ID &cid, SClass_ID sid, DWORD sbid)
 Deletes the application/plugin specific (custom) data stored with an Animatable.
 
CoreExport void ClearAllAppData ()
 Deletes all application/plugin specific (custom) data stored with an Animatable.
 
 __declspec (deprecated) virtual MSTR SubAnimName(int i) MAX_SEALED
 
virtual BOOL CanDeleteSubAnim (int i)
 
virtual void DeleteSubAnim (int i)
 
virtual DWORD GetSubAnimCurveColor (int subNum)
 
virtual int SubNumToRefNum (int subNum)
 
virtual BOOL CanCopyAnim ()
 
CoreExport int HasSubElements (int type=0)
 
virtual int GetSubFCurveExtents (int subNum, ParamDimensionBase *dim, float &min, float &max, DWORD flags)
 The values max and min should be initialized before calling this function.
 
virtual ParamDimensionGetParamDimension (int i)
 
virtual BOOL SelectSubAnim (int subNum)
 
virtual BOOL BypassTreeView ()
 
virtual BOOL BypassTrackBar ()
 
virtual BOOL BypassPropertyLevel ()
 
virtual BOOL InvisibleProperty ()
 
virtual int NumKeys ()
 
virtual TimeValue GetKeyTime (int index)
 
virtual int GetKeyIndex (TimeValue t)
 
virtual BOOL GetNextKeyTime (TimeValue t, DWORD flags, TimeValue &nt)
 
virtual void CopyKeysFromTime (TimeValue src, TimeValue dst, DWORD flags)
 
virtual void DeleteKeyAtTime (TimeValue t)
 
virtual BOOL IsKeyAtTime (TimeValue t, DWORD flags)
 
virtual int GetKeyTimes (Tab< TimeValue > &times, Interval range, DWORD flags)
 
virtual int GetKeySelState (BitArray &sel, Interval range, DWORD flags)
 
CoreExport void OpenTreeEntry (int type, DWORD tv)
 
CoreExport void CloseTreeEntry (int type, DWORD tv)
 
CoreExport int IsTreeEntryOpen (int type, DWORD tv)
 
CoreExport BOOL GetSelInTrackView (DWORD tv)
 
CoreExport void SetSelInTrackView (DWORD tv, BOOL sel)
 
CoreExport BOOL InTrackViewSelSet (int which)
 
CoreExport void SetTrackViewSelSet (int which, BOOL inOut)
 
virtual BOOL AssignController (Animatable *control, int subAnim)
 
virtual BOOL CanAssignController (int subAnim)
 Return true if we can reassign the subanim specified.
 
virtual BOOL CanMakeUnique ()
 
CoreExport int EnumAnimTree (AnimEnum *animEnum, Animatable *client, int subNum)
 
virtual int RenderBegin (TimeValue t, ULONG flags=0)
 
virtual int RenderEnd (TimeValue t)
 
virtual CoreExport Interval GetTimeRange (DWORD flags)
 
virtual void EditTimeRange (Interval range, DWORD flags)
 
virtual void DeleteTime (Interval iv, DWORD flags)
 
virtual void ReverseTime (Interval iv, DWORD flags)
 
virtual void ScaleTime (Interval iv, float s)
 
virtual void InsertTime (TimeValue ins, TimeValue amount)
 
virtual BOOL SupportTimeOperations ()
 
virtual CoreExport void MapKeys (TimeMap *map, DWORD flags)
 
virtual void DeleteKeys (DWORD flags)
 
virtual void DeleteKeyByIndex (int index)
 
virtual void SelectKeys (TrackHitTab &sel, DWORD flags)
 
virtual void SelectSubKeys (int subNum, TrackHitTab &sel, DWORD flags)
 
virtual void SelectSubCurve (int subNum, BOOL sel)
 
virtual void SelectKeyByIndex (int i, BOOL sel)
 
virtual BOOL IsKeySelected (int i)
 
virtual void FlagKey (TrackHitRecord hit)
 
virtual int GetFlagKeyIndex ()
 
virtual int NumSelKeys ()
 
virtual void CloneSelectedKeys (BOOL offset=FALSE)
 
virtual void AddNewKey (TimeValue t, DWORD flags)
 
virtual void MoveKeys (ParamDimensionBase *dim, float delta, DWORD flags)
 
virtual void ScaleKeyValues (ParamDimensionBase *dim, float origin, float scale, DWORD flags)
 
virtual void SelectCurve (BOOL sel)
 
virtual BOOL IsCurveSelected ()
 Returns TRUE if the function curve is selected; otherwise returns FALSE.
 
virtual BOOL IsSubCurveSelected (int subNum)
 Returns the selected state of the sub-curve whose index is passed.
 
virtual int GetSelKeyCoords (TimeValue &t, float &val, DWORD flags)
 
virtual void SetSelKeyCoords (TimeValue t, float val, DWORD flags)
 
virtual int SetSelKeyCoordsExpr (ParamDimension *dim, const MCHAR *timeExpr, const MCHAR *valExpr, DWORD flags)
 
virtual void AdjustTangents (TrackHitRecord hit, ParamDimensionBase *dim, Rect &rcGraph, float tzoom, int tscroll, float vzoom, int vscroll, int dx, int dy, DWORD flags)
 
virtual void AdjustTangents (TrackHitRecord hit, ParamDimensionBase *dim, float angle, float length, DWORD flags)
 
virtual CoreExport BOOL IsAnimated ()
 
virtual BOOL CanCopyTrack (Interval iv, DWORD flags)
 
virtual BOOL CanPasteTrack (TrackClipObject *cobj, Interval iv, DWORD flags)
 
virtual TrackClipObjectCopyTrack (Interval iv, DWORD flags)
 
virtual void PasteTrack (TrackClipObject *cobj, Interval iv, DWORD flags)
 
virtual BOOL CanCopySubTrack (int subNum, Interval iv, DWORD flags)
 
virtual BOOL CanPasteSubTrack (int subNum, TrackClipObject *cobj, Interval iv, DWORD flags)
 
virtual TrackClipObjectCopySubTrack (int subNum, Interval iv, DWORD flags)
 
virtual void PasteSubTrack (int subNum, TrackClipObject *cobj, Interval iv, DWORD flags)
 
virtual int GetTrackVSpace (int lineHeight)
 
virtual int HitTestTrack (TrackHitTab &hits, Rect &rcHit, Rect &rcTrack, float zoom, int scroll, DWORD flags)
 
virtual int PaintTrack (ParamDimensionBase *dim, HDC hdc, Rect &rcTrack, Rect &rcPaint, float zoom, int scroll, DWORD flags)
 
virtual int PaintSubTrack (int subNum, ParamDimensionBase *dim, HDC hdc, Rect &rcTrack, Rect &rcPaint, float zoom, int scroll, DWORD flags)
 
virtual int HitTestFCurves (ParamDimensionBase *dim, TrackHitTab &hits, Rect &rcHit, Rect &rcGraph, float tzoom, int tscroll, float vzoom, int vscroll, DWORD flags)
 
virtual int PaintSubFCurves (int subNum, ParamDimensionBase *dim, HDC hdc, Rect &rcGraph, Rect &rcPaint, float tzoom, int tscroll, float vzoom, int vscroll, DWORD flags)
 
virtual int HitTestSubFCurves (int subNum, ParamDimensionBase *dim, TrackHitTab &hits, Rect &rcHit, Rect &rcGraph, float tzoom, int tscroll, float vzoom, int vscroll, DWORD flags)
 
virtual void EditTrackParams (TimeValue t, ParamDimensionBase *dim, const MCHAR *pname, HWND hParent, IObjParam *ip, DWORD flags)
 
virtual int TrackParamsType ()
 
CoreExport void AddNoteTrack (NoteTrack *note)
 
CoreExport void DeleteNoteTrack (NoteTrack *note, BOOL delNote=TRUE)
 
CoreExport BOOL HasNoteTracks ()
 
CoreExport int NumNoteTracks ()
 
CoreExport NoteTrackGetNoteTrack (int i)
 
virtual void FreeAllBitmaps ()
 
virtual void GetSystemNodes (INodeTab &nodes, SysNodeContext Context)
 
virtual BOOL IsSubClassOf (Class_ID classID)
 returns true if the animatable has sub-classed off the given class
 
virtual CoreExport void MouseCycleCompleted (TimeValue t)
 
virtual CoreExport void MouseCycleStarted (TimeValue t)
 
virtual int NumParamBlocks ()
 
virtual IParamBlock2GetParamBlock (int i)
 
virtual IParamBlock2GetParamBlockByID (short id)
 
CoreExport bool SvSaveData (ISave *isave, USHORT id)
 
CoreExport bool SvLoadData (ILoad *iLoad)
 
CoreExport DWORD SvGetRefIndex ()
 
CoreExport void SvSetRefIndex (DWORD i)
 
CoreExport bool SvDeleteRefIndex ()
 
CoreExport SvGraphNodeReference SvStdTraverseAnimGraph (IGraphObjectManager *gom, Animatable *owner, int id, DWORD flags)
 
virtual CoreExport bool SvCanSetName (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport bool SvSetName (IGraphObjectManager *gom, IGraphNode *gNode, const MSTR &name)
 
virtual CoreExport bool SvCanRemoveThis (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport bool SvRemoveThis (IGraphObjectManager *gom, IGraphNode *gNode)
 Called when the user deletes this object in the schematic view...
 
virtual CoreExport bool SvIsSelected (IGraphObjectManager *gom, IGraphNode *gNode)
 Returns true if the object is selected in its schematic view.
 
virtual CoreExport bool SvIsHighlighted (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport COLORREF SvHighlightColor (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport COLORREF SvGetSwatchColor (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport bool SvIsInactive (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport MultiSelectCallbackSvGetMultiSelectCallback (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport bool SvCanSelect (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport MSTR SvGetTip (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport MSTR SvGetRefTip (IGraphObjectManager *gom, IGraphNode *gNode, IGraphNode *gNodeMaker)
 
virtual CoreExport bool SvCanDetach (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport bool SvDetach (IGraphObjectManager *gom, IGraphNode *gNode)
 
virtual CoreExport MSTR SvGetRelTip (IGraphObjectManager *gom, IGraphNode *gNodeTarget, int id, IGraphNode *gNodeMaker)
 Returns a string to be displayed in the tip window in the schematic view for a relationship from "gNodeMaker" to "gNodeTarget"...
 
virtual CoreExport bool SvCanDetachRel (IGraphObjectManager *gom, IGraphNode *gNodeTarget, int id, IGraphNode *gNodeMaker)
 Returns true if this object can respond to the SvDetachRel(...) method...
 
virtual CoreExport bool SvDetachRel (IGraphObjectManager *gom, IGraphNode *gNodeTarget, int id, IGraphNode *gNodeMaker)
 Detach this relationship.
 
virtual CoreExport bool SvHandleRelDoubleClick (IGraphObjectManager *gom, IGraphNode *gNodeTarget, int id, IGraphNode *gNodeMaker)
 Called when this relationship is double-clicked in the schematic view...
 
CoreExport ICustAttribContainerGetCustAttribContainer ()
 This method returns a pointer to the custom attributes container interface class.
 
CoreExport void AllocCustAttribContainer ()
 This method allocates space for a custom attributes container.
 
CoreExport void DeleteCustAttribContainer ()
 This method deletes space used by a custom attributes container.
 
void SetAFlag (DWORD mask)
 
void ClearAFlag (DWORD mask)
 Clears one or more bits in the Animatable flags.
 
bool TestAFlag (DWORD mask) const
 Tests one or more bits in the Animatable flags.
 
void SetAFlagEx (DWORD mask)
 Sets one or more bits in the Animatable extended flags.
 
void ClearAFlagEx (DWORD mask)
 Clears one or more bits in the Animatable extended flags.
 
bool TestAFlagEx (DWORD mask) const
 Tests one or more bits in the Animatable extended flags.
 
CoreExport bool TestFlagBit (int index)
 Tests the specified flag bit.
 
CoreExport void SetFlagBit (int index, bool newValue=true)
 Sets the specified flag bit.
 
CoreExport void ClearFlagBit (int index)
 Clears the specified flag bit.
 
- Public Member Functions inherited from InterfaceServer
virtual UtilExport ~InterfaceServer ()
 Destructor.
 
virtual UtilExport BaseInterfaceGetInterface (Interface_ID id)
 
template<class InterfaceType >
InterfaceType * GetTypedInterface ()
 

Additional Inherited Members

- Static Public Member Functions inherited from Animatable
static CoreExport BOOL IsDeleted (Animatable *anim)
 Debug method to determine whether an object has been deleted.
 
static CoreExport AnimHandle GetHandleByAnim (Animatable *anim)
 Get the unique handle for an Animatable object.
 
static CoreExport AnimatableGetAnimByHandle (AnimHandle handle)
 Get an Animatable object from its unique handle.
 
static CoreExport AnimHandle GetNextHandle ()
 Get the unique handle for the next Animatable object to be created.
 
static CoreExport void EnumerateAllAnimatables (EnumAnimList &enumProcObject)
 Enumerator to enumerate across all animatables.
 
static CoreExport bool RegisterAppDataLoadCallback (const Class_ID &cid, SClass_ID sid, APPDATALOADPROC proc)
 Registers a callback proc that is called when an AppDataChunk is read from a scene file.
 
static CoreExport bool UnRegisterAppDataLoadCallback (const Class_ID &cid, SClass_ID sid, APPDATALOADPROC proc)
 Unregisters a callback proc that is called when an AppDataChunk is read from a scene file.
 
static CoreExport bool RegisterAppDataLoadCallback (DWORD sbid, APPDATALOADPROC proc)
 Registers a callback proc that is called when an AppDataChunk is read from a scene file.
 
static CoreExport bool UnRegisterAppDataLoadCallback (DWORD sbid, APPDATALOADPROC proc)
 Unregisters a callback proc that is called when an AppDataChunk is read from a scene file.
 
static CoreExport void ClearAFlagInAllAnimatables (DWORD mask)
 Clears one or more bits in the Animatable flags in all Animatables.
 
static CoreExport void ClearAFlagExInAllAnimatables (DWORD mask)
 Clears one or more bits in the Animatable extended flags in all Animatables.
 
static CoreExport int RequestFlagBit ()
 Requests an unique flag bit index.
 
static CoreExport void ReleaseFlagBit (int index)
 Releases the flag bit index.
 
static CoreExport void ClearFlagBitInAllAnimatables (int index)
 Clears the specified flag bit in all Animatables.
 
- Static Public Member Functions inherited from MaxHeapOperators
static UtilExport voidoperator new (size_t size)
 Standard new operator used to allocate objects If there is insufficient memory, an exception will be thrown.
 
static UtilExport voidoperator new (size_t size, const std::nothrow_t &e)
 Standard new operator used to allocate objects if there is insufficient memory, NULL will be returned.
 
static UtilExport voidoperator new (size_t size, const char *filename, int line)
 New operator used to allocate objects that takes the filename and line number where the new was called If there is insufficient memory, an exception will be thrown.
 
static UtilExport voidoperator new (size_t size, int block_type, const char *filename, int line)
 New operator used to allocate objects that takes the type of memory, filename and line number where the new was called If there is insufficient memory, an exception will be thrown.
 
static UtilExport voidoperator new (size_t size, const std::nothrow_t &e, const char *filename, int line)
 New operator used to allocate objects that takes the filename and line number where the new was called If there is insufficient memory, NULL will be returned.
 
static UtilExport voidoperator new (size_t size, unsigned long flags)
 New operator used to allocate objects that takes extra flags to specify special operations If there is insufficient memory, an exception will be thrown.
 
static UtilExport voidoperator new (size_t size, const std::nothrow_t &e, unsigned long flags)
 New operator used to allocate objects that takes extra flags to specify special operations If there is insufficient memory, NULL will be returned.
 
static UtilExport voidoperator new[] (size_t size)
 New operator used to allocate arrays of objects If there is insufficient memory, an exception will be thrown.
 
static UtilExport voidoperator new[] (size_t size, const std::nothrow_t &e)
 New operator used to allocate arrays of objects If there is insufficient memory, NULL will be returned.
 
static UtilExport voidoperator new[] (size_t size, const char *filename, int line)
 New operator used to allocate arrays of objects If there is insufficient memory, an exception will be thrown.
 
static UtilExport voidoperator new[] (size_t size, int block_type, const char *filename, int line)
 New operator used to allocate arrays of objects.
 
static UtilExport voidoperator new[] (size_t size, const std::nothrow_t &e, const char *filename, int line)
 New operator used to allocate arrays of objects If there is insufficient memory, NULL will be returned.
 
static UtilExport voidoperator new[] (size_t size, unsigned long flags)
 New operator used to allocate arrays of objects If there is insufficient memory, an exception will be thrown.
 
static UtilExport voidoperator new[] (size_t size, const std::nothrow_t &e, unsigned long flags)
 New operator used to allocate arrays of objects If there is insufficient memory, NULL will be returned.
 
static UtilExport void operator delete (void *ptr)
 Standard delete operator used to deallocate an object If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete (void *ptr, const std::nothrow_t &e)
 Standard delete operator used to deallocate an object If the pointer is invalid, nothing will happen.
 
static UtilExport void operator delete (void *ptr, const char *filename, int line)
 Delete operator used to deallocate an object that takes the filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete (void *ptr, int block_type, const char *filename, int line)
 Delete operator used to deallocate an object that takes the type of memory, filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete (void *ptr, const std::nothrow_t &e, const char *filename, int line)
 Delete operator used to deallocate an object that takes the filename and line number where the delete was called If the pointer is invalid, nothing will happen.
 
static UtilExport void operator delete (void *ptr, unsigned long flags)
 Delete operator used to deallocate an object that takes extra flags to specify special operations If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete (void *ptr, const std::nothrow_t &e, unsigned long flags)
 Delete operator used to deallocate an object that takes extra flags to specify special operations If the pointer is invalid, nothing will happen.
 
static UtilExport void operator delete[] (void *ptr)
 Standard delete operator used to deallocate an array of objects If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete[] (void *ptr, const std::nothrow_t &e)
 Standard delete operator used to deallocate an array of objects If the pointer is invalid, nothing will happen.
 
static UtilExport void operator delete[] (void *ptr, const char *filename, int line)
 Delete operator used to deallocate an array of objects that takes the filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete[] (void *ptr, int block_type, const char *filename, int line)
 Delete operator used to deallocate an array of objects that takes the type of memory, filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete[] (void *ptr, const std::nothrow_t &e, const char *filename, int line)
 Delete operator used to deallocate an array of objects that takes the filename and line number where the delete was called If the pointer is invalid, nothing will happen.
 
static UtilExport void operator delete[] (void *ptr, unsigned long flags)
 Delete operator used to deallocate an array of objects that takes extra flags to specify special operations If the pointer is invalid, an exception will be thrown.
 
static UtilExport void operator delete[] (void *ptr, const std::nothrow_t &e, unsigned long flags)
 Delete operator used to deallocate an array of objects that takes extra flags to specify special operations If the pointer is invalid, an exception will be thrown.
 
static UtilExport voidoperator new (size_t size, void *placement_ptr)
 Placement new operator.
 
static UtilExport void operator delete (void *ptr, void *placement_ptr)
 Placement delete operator.
 
static UtilExport voidaligned_malloc (size_t size, size_t alignment)
 Allocates memory on a specified alignment boundary.
 
static UtilExport voidaligned_realloc (void *ptr, size_t size, size_t alignment)
 Reallocates memory on a specified alignment boundary.
 
static UtilExport void aligned_free (void *ptr)
 Frees a block of memory that was allocated with aligned_malloc/aligned_realloc.
 
- Static Public Attributes inherited from Animatable
static const AnimHandle kInvalidAnimHandle = 0
 
- Protected Member Functions inherited from Control
virtual CoreExport void SetReference (int i, RefTargetHandle rtarg)
 Stores a ReferenceTarget as its 'i-th' reference`.
 
- Protected Member Functions inherited from ReferenceTarget
CoreExport int DoEnumDependentsImpl (DependentEnumProc *dep) override
 Method to perform an enumeration on a ReferenceTarget.
 
virtual CoreExport ~ReferenceTarget ()=0
 Destructor.
 
- Protected Member Functions inherited from ReferenceMaker
virtual CoreExport ~ReferenceMaker ()=0
 Destructor.
 
void BlockEval ()
 Validates a given reference link between this reference maker and its reference target.
 
void UnblockEval ()
 Validates a given reference link between this reference maker and its reference target.
 
int Evaluating ()
 Validates a given reference link between this reference maker and its reference target.
 
CoreExport RefResult StdNotifyRefChanged (const Interval &changeInt, RefTargetHandle hTarget, PartID partID, RefMessage message, BOOL propagate, NotifyDependentsOption notifyDependentsOption)
 Validates a given reference link between this reference maker and its reference target.
 
- Protected Member Functions inherited from Animatable
virtual CoreExport ~Animatable ()=0
 Destructor.
 
- Protected Member Functions inherited from Noncopyable
 Noncopyable ()
 
 ~Noncopyable ()
 
- Protected Attributes inherited from Animatable
DWORD aflag
 
AnimPropertyList aprops
 

Detailed Description

See also
Class Control, Class Interval, Class Matrix3, Class Point3, Additional_Controller_Related_Functions, Class Quat, Class ScaleValue
Description:
StdControl is a class from which you may derived controller objects. Controllers are the objects in 3ds Max that control animation. Any controller that does not evaluate itself as a function of its input can subclass off this class.

The purpose of this class is to simplify some aspects of implementing controllers. The only restriction when using this class is that the controller can not evaluate itself as a function of its input. For example, position, rotation, and scale controllers are passed a TM when they are evaluated. They are supposed to calculate their value and apply it to the TM (pre-multiply). It is possible that the controller could calculate its value as some function of this input matrix. For example, a rotation controller could look at the position of the matrix and the position of some other node in the scene and calculate the rotation such that the object is looking at the other node. Most controllers don't do this so they can subclass off this class which handles processing ORTs (Out of Range Types), ease curves and multiplier curves.

This class implements GetValue() and SetValue() but requires the derived class to implement two new methods: GetValueLocalTime() and SetValueLocalTime().

The implementations of GetValue() and SetValue() handle processing the ORTs and ease and multiplier curves.
Plug-In Information:
Class Defined In CONTROL.H

Super Class ID CTRL_FLOAT_CLASS_ID - Used by float controllers.

CTRL_POINT3_CLASS_ID - Used by Point3 controllers.

CTRL_MATRIX3_CLASS_ID - Used by Matrix3 controllers.

CTRL_POSITION_CLASS_ID - Used by position controllers.

CTRL_ROTATION_CLASS_ID - Used by rotation controllers.

CTRL_SCALE_CLASS_ID - Used by scale controllers.

CTRL_MORPH_CLASS_ID - Used by morph controllers.

Standard File Name Extension DLC

Extra Include File Needed None

Member Function Documentation

◆ GetValueLocalTime() [1/2]

virtual void GetValueLocalTime ( TimeValue  t,
void val,
Interval valid,
GetSetMethod  method = CTRL_ABSOLUTE 
)
pure virtual
Remarks
This method is called to have the controller evaluate itself at the given time. In this class the system implements the method GetValue(). GetValue() calls this method to retrieves the value of the controller at the specified time. The implementation of GetValue() then takes care of handling the ORTs, ease curves and multiplier curves. The plug-in must only return the value of the controller.
Parameters
tThe time to retrieve the value.
valThis points to a variable to hold the computed value of the controller at the specified time. What the plug-in needs to do to store the value of the controller depends on the controller type. There are six controller types as follows:

float
*val points to a float

Point3
*val points to a Point3

Position
*val points to a Point3

Rotation
*val points to a Quat

Scale
*val points to a ScaleValue

Transform
*val points to a Matrix3
validThe interval into which the validity of the evaluated parameters is intersected.
methodThis will always be: CTRL_ABSOLUTE

. It indicates the controller should simply store its value in *val.

◆ GetValueLocalTime() [2/2]

void GetValueLocalTime ( TimeValue  t,
void val,
GetSetMethod  method = CTRL_ABSOLUTE 
)
inline
2524 {
2525 Interval interval = FOREVER;
2526 GetValueLocalTime(t, val, interval, method);
2527 }
Definition: interval.h:36
virtual void GetValueLocalTime(TimeValue t, void *val, Interval &valid, GetSetMethod method=CTRL_ABSOLUTE)=0
#define FOREVER
Definition: interval.h:168

◆ SetValueLocalTime()

virtual void SetValueLocalTime ( TimeValue  t,
void val,
int  commit = 1,
GetSetMethod  method = CTRL_ABSOLUTE 
)
pure virtual
Remarks
In this class the system implements the method SetValue(). SetValue() calls this method to store the value of the controller at the specified time. The system takes care of handling the ORTs and multiplier curves. The plug-in must only store the value of the controller.
Parameters
tThe time to store the value.
valStorage for the value to set. See *val in Control::SetValue() for the possible data types passed here.
commitIf this parameter is zero, the controller should save the value at the given time before setting the value. If commit is nonzero, the controller doesn't need to actually update its keys or tangents. See Control methods CommitValue() and RestoreValue().
methodOne of the following values:

CTRL_RELATIVE
Indicates the plug-in should add the value to the existing value *val (i.e. Move/Rotate/Scale)

CTRL_ABSOLUTE
Indicates the plug-in should just set the value.

◆ GetValue()

CoreExport void GetValue ( TimeValue  t,
void val,
Interval valid,
GetSetMethod  method = CTRL_ABSOLUTE 
)
overridevirtual
Remarks
This method is implemented by the system. Controller that subclass from StdControl only need to implement GetValueLocalTime(). See above.

Implements Control.

◆ SetValue()

CoreExport void SetValue ( TimeValue  t,
void val,
int  commit = 1,
GetSetMethod  method = CTRL_ABSOLUTE 
)
overridevirtual
Remarks
This method is implemented by the system. Controller that subclass from StdControl only need to implement SetValueLocalTime(). See above.

Implements Control.

◆ GetLocalTMComponents()

CoreExport bool GetLocalTMComponents ( TimeValue  t,
TMComponentsArg cmpts,
Matrix3Indirect parentMatrix 
)
overridevirtual
Remarks
This method returns the PRS components of the local matrix. In general, controller cannot decide on the local matrix without knowing the parent matrix. However, many controllers, such as default controllers, are well defined without the parent matrix. In these cases, it is more efficient to compute the local components directly without going through the world matrix.

Therefore, the argument parentMatrix is a reference to Matrix3Indirect. This would allow clients to supply a "delayed parent matrix," which will be computed only if it is necessary. It returns true for Matrix3, Position, Rotation, or Scale controllers, and return false otherwise.

The PRS components will be put in argument cmpts in the respective fields with corresponding validity intervals. NULL pointer, of TMComponentsArg::position for example, indicates that the client is not concerned about the component. When it is not NULL, the corresponding pointer to the validity interval MUST NOT be NULL. When it is not NULL, TMComponentsArg::rotation is a float[4]. rotRep tells what the numbers mean.

Position, Rotation, or Scale, controllers will put results at the respective component when the corresponding pointer is not NULL.

Upon entry, parentMatrix should represent the parent matrix up to the first requested components. For Matrix3 controllers, for example, if cmpts.position==NULL && cmpts.rotation!=NULL, then parentMatrix should be matrix that includes the parent node matrix plus the position of this node. Upon return, this matrix may be modified.
Parameters
tThe time at which to get the local TM components.
cmptsSee Structure TMComponentsArgs.
parentMatrixThe parent matrix.

Note the definition: LocalMatrix = WorldMatrix * ParentWorldMatrix^(-1)

Reimplemented from Control.

◆ Extrapolate()

virtual void Extrapolate ( Interval  range,
TimeValue  t,
void val,
Interval valid,
int  type 
)
pure virtual
Remarks
This method is used to calculate some of the Out of Range Types (ORTs). There are several kinds of extrapolations that need to be done based on the ORT type. There are template functions implemented in CONTROL.H to do them. See Template Extrapolation Functions.
Parameters
rangeThe range that must be extrapolated.
tThe time outside the range to extrapolate.
valStorage for the extrapolated value. See *val in GetValueLocalTime() for the possible data types passed here.
validThe interval into which the validity of the evaluated parameters is intersected.
typeSee Out of Range Types.
Sample Code:
The following sample code shows the implementation in the Simple Wave Controller (MAXSDK/samples/controllers/wavectrl/simpwave.cpp).
void FloatWaveControl::Extrapolate(
Interval range,TimeValue t,void *val,Interval &valid,int type)
{
float val0, val1, val2, res = 0.0f;
switch (type) {
case ORT_LINEAR:
if (t<range.Start()) {
GetValueLocalTime(range.Start(),&val0,valid);
GetValueLocalTime(range.Start()+1,&val1,valid);
res = LinearExtrapolate(range.Start(),t,val0,val1,val0);
} else {
GetValueLocalTime(range.End()-1,&val0,valid);
GetValueLocalTime(range.End(),&val1,valid);
res = LinearExtrapolate(range.End(),t,val0,val1,val1);
}
break;
if (t<range.Start()) {
GetValueLocalTime(range.Start(),&val0,valid);
res = IdentityExtrapolate(range.Start(),t,val0);
} else {
GetValueLocalTime(range.End(),&val0,valid);
res = IdentityExtrapolate(range.End(),t,val0);
}
break;
GetValueLocalTime(range.Start(),&val0,valid);
GetValueLocalTime(range.End(),&val1,valid);
GetValueLocalTime(CycleTime(range,t),&val2,valid);
res = RepeatExtrapolate(range,t,val0,val1,val2);
break;
}
valid.Set(t,t);
*((float*)val) = res;
}
TimeValue Start() const
Definition: interval.h:134
TimeValue End() const
Definition: interval.h:136
void Set(TimeValue s, TimeValue e)
Definition: interval.h:112
T RepeatExtrapolate(Interval range, TimeValue t, const T &startVal, const T &endVal, const T &cycleVal)
Definition: control.h:3012
T IdentityExtrapolate(TimeValue endPoint, TimeValue t, const T &endVal)
Definition: control.h:3031
TimeValue CycleTime(Interval i, TimeValue t)
Definition: control.h:2972
T LinearExtrapolate(TimeValue t0, TimeValue t1, const T &val0, const T &val1, const T &endVal)
Definition: control.h:3007
#define ORT_IDENTITY
This only is used when mapping time to time.
Definition: control.h:141
#define ORT_LINEAR
Takes the slope at the end key in the range and extrapolate with that slope.
Definition: control.h:138
#define ORT_RELATIVE_REPEAT
Causes the key pattern to repeat with the first key taking off where the last key left off.
Definition: control.h:142
int TimeValue
Definition: maxtypes.h:31

◆ CreateTempValue()

virtual void * CreateTempValue ( )
pure virtual
Remarks
When processing the ORTs the system might need a temporary variable to hold an intermediate value. Since the system doesn't know the type of the data that the controller is controlling it can't allocate the right amount of temporary storage. It calls this method to do so. The plug-in's implementation of this method should allocate storage to hold its type of data and return a pointer to it.

◆ DeleteTempValue()

virtual void DeleteTempValue ( void val)
pure virtual
Remarks
This method simply deletes the memory allocated by CreateTempValue().
Parameters
valPoints to the memory allocated by CreateTempValue().

◆ ApplyValue()

virtual void ApplyValue ( void val,
void delta 
)
pure virtual
Remarks
Applies the given value to the given input value. For position, rotation, and scale controllers, the input value will be a matrix and the value being applied will be a Point3, Quaternion, or ScaleValue, respectively. For other controllers the input value is the same type as the value being applied.
Parameters
valThe value to update.
deltaThe value to apply.

◆ MultiplyValue()

virtual void MultiplyValue ( void val,
float  m 
)
pure virtual
Remarks
If the controller has multiplier curves then the system will calculate the factor from all the multiplier curves and then ask the controller to multiply the scalar value to the particular data type.
Parameters
valThe value to update.
mThe scalar value to multiply *val by.