BaseObject Class Reference

#include <c4d_baseobject.h>

Inheritance diagram for BaseObject:

Detailed Description

All objects in Cinema 4D are derived from the BaseObject class.
Contains methods for the object's position, scale and rotation, as well as for accessing the sub-items of the object (e.g. tags and animation tracks).

Note

Has to be created with Alloc() and destroyed with Free(). Use AutoAlloc to automate the allocation and destruction based on scope.

Private Member Functions
	BaseObject ()
	~BaseObject ()

Alloc/Free
static BaseObject *	Alloc (Int32 type)
static void	Free (BaseObject *&bl)

Navigation
BaseObject *	GetNext ()
BaseObject *	GetPred ()
BaseObject *	GetUp ()
BaseObject *	GetDown ()
BaseObject *	GetDownLast ()

Abs Pos/Scale/Rot
Vector	GetAbsPos () const
void	SetAbsPos (const Vector &v)
Vector	GetAbsScale () const
void	SetAbsScale (const Vector &v)
Vector	GetAbsRot () const
void	SetAbsRot (const Vector &v)

Frozen Pos/Scale/Rot
Vector	GetFrozenPos () const
void	SetFrozenPos (const Vector &v)
Vector	GetFrozenScale () const
void	SetFrozenScale (const Vector &v)
Vector	GetFrozenRot () const
void	SetFrozenRot (const Vector &v)

Rel Pos/Scale/Rot
Vector	GetRelPos () const
void	SetRelPos (const Vector &v)
Vector	GetRelScale () const
void	SetRelScale (const Vector &v)
Vector	GetRelRot () const
void	SetRelRot (const Vector &v)

Ml/Mg Matrix
const Matrix &	GetMl () const
void	SetMl (const Matrix &m)
Matrix	GetFrozenMln () const
Matrix	GetRelMln () const
Matrix	GetRelMl () const
void	SetRelMl (const Matrix &m)
Matrix	GetMg () const
void	SetMg (const Matrix &m)
Matrix	GetMln () const
Matrix	GetMgn () const
Matrix	GetUpMg () const
void	CopyMatrixTo (BaseObject *dst)

Bounding Box
Vector	GetMp ()
Vector	GetRad ()
void	GetDimension (Vector &mp, Vector &rad)

Editor/Render/Deform Mode
Int32	GetEditorMode () const
Int32	GetEditorModeH () const
void	SetEditorMode (Int32 mode)
Int32	GetRenderMode () const
Int32	GetRenderModeH () const
void	SetRenderMode (Int32 mode)
Bool	GetDeformMode () const
void	SetDeformMode (Bool mode)
Int32	GetRealDeformMode () const
void	SetRealDeformMode (Int32 mode)

Unique IP
Int32	GetUniqueIP ()
void	SetUniqueIP (Int32 ip)

Tag
BaseTag *	GetFirstTag ()
BaseTag *	GetLastTag ()
BaseTag *	GetTag (Int32 type, Int32 nr=0)
const maxon::BaseArray< BaseTag * > *	GetTagsOfType (Int32 type) const
const maxon::BaseArray< BaseTag * > *	GetTagsWithFlags (Int32 flags) const
const void *	GetTagDataR (Int32 type, Int32 nr=0) const
void *	GetTagDataW (Int32 type, Int32 nr=0)
Int32	GetTagDataCount (Int32 type) const
BaseTag *	MakeTag (Int32 type, BaseTag *pred=nullptr)
VariableTag *	MakeVariableTag (Int32 type, Int32 count, BaseTag *pred=nullptr)
void	InsertTag (BaseTag *tp, BaseTag *pred=nullptr)
void	KillTag (Int32 type, Int32 nr=0)
Bool	CopyTagsTo (BaseObject *dest, Int32 visible, Int32 variable, Int32 hierarchical, AliasTrans *trans)

Cache
BaseObject *	GetCache (HierarchyHelp *hh=nullptr)
BaseObject *	GetDeformCache ()
LineObject *	GetIsoparm ()
void	SetIsoparm (LineObject *l)
BaseObject *	GetCacheParent () const
BaseObject *	GetCacheTopParent () const

Phong
Bool	SetPhong (Bool on, Bool anglelimit, Float angle)

Dirty
Bool	IsDirty (DIRTYFLAGS flags)
void	SetDirty (DIRTYFLAGS flags)
Bool	CheckCache (HierarchyHelp *hh)
void	Touch ()

Color Properties
void	GetColorProperties (ObjectColorProperties *prop)
void	SetColorProperties (ObjectColorProperties *prop)

Modeling Axis
const Matrix &	GetModelingAxis (BaseDocument *doc)
void	SetModelingAxis (const Matrix &m)

Hierarchy Clone
BaseObject *	GetAndCheckHierarchyClone (HierarchyHelp *hh, BaseObject *op, HIERARCHYCLONEFLAGS flags, Bool *dirty, AliasTrans *trans, Int childCount, maxon::BaseArray< BaseObject * > *children, Bool addChildOrClone=false)
BaseObject *	GetAndCheckHierarchyClone (HierarchyHelp *hh, BaseObject *op, HIERARCHYCLONEFLAGS flags, Bool *dirty, AliasTrans *trans, Bool allchildren)
BaseObject *	GetHierarchyClone (HierarchyHelp *hh, BaseObject *op, HIERARCHYCLONEFLAGS flags, Bool *dirty, AliasTrans *trans)
BaseObject *	GetHierarchyClone (HierarchyHelp *hh, BaseObject *op, HIERARCHYCLONEFLAGS flags, Bool *dirty, AliasTrans *trans, DIRTYFLAGS dirtyflags)

Dependence List
void	NewDependenceList ()
Bool	CompareDependenceList ()
void	AddDependence (HierarchyHelp *hh, BaseObject *op)
void	AddDependence (HierarchyHelp *hh, BaseObject *op, DIRTYFLAGS dirtyflags)
void	TouchDependenceList ()

Rotation Order
void	SetRotationOrder (ROTATIONORDER order)
ROTATIONORDER	GetRotationOrder () const

Synchronized Rotation Mode
void	SetQuaternionRotationMode (Bool active, Bool bUndo)
Bool	IsQuaternionRotationMode ()
Bool	SynchronizeVectorTrackKeys (Int32 vectorTrackID, Bool bUndo, BaseTime startRange=BaseTime(-108000, 1), BaseTime endRange=BaseTime(108000, 1))
Bool	FindBestEulerAngle (Int32 rotationTrackID, Bool bAdjustTangent, Bool bUndo, BaseTime startRange=BaseTime(-108000, 1), BaseTime endRange=BaseTime(108000, 1))
Bool	EvaluateSynchronizedRotation (const BaseTime &time, ANIMATEFLAGS flags, Vector *resultRotation=nullptr)

Miscellaneous
Bool	GetVectorTracks (const DescID &id, CTrack *&xfound, CTrack *&yfound, CTrack *&zfound)
Bool	GetVectorCurves (CCurve *curveToSearch, CCurve *&xfound, CCurve *&yfound, CCurve *&zfound)
UInt64	GetGUID ()
Int32	GetHighlightHandle (BaseDraw *bd)
SplineObject *	GetRealSpline ()
Float	GetVisibility (Float parent)
Bool	SearchHierarchy (BaseObject *op)

Private
BaseObject *	GetOrigin (Bool safe)
void	SetOrigin (BaseObject *origin)
BaseObject *	GetTopOrigin (Bool parent, Bool safe)
BaseObject *	GetEditObject (BaseObject **psds, DISPLAYEDITSTATE state, Bool safetey=true)
void	RemoveFromCache ()
DRAWRESULT	ObjDraw (DRAWPASS drawpass, BaseDraw *bd, BaseDrawHelp *bh)

Additional Inherited Members
Public Member Functions inherited from BaseList2D
void	SetBit (Int32 mask)
Bool	GetBit (Int32 mask) const
void	DelBit (Int32 mask)
void	ToggleBit (Int32 mask)
Int32	GetAllBits () const
void	SetAllBits (Int32 bits)
void	SetBitEx (Int32 mask, Int32 flags)
const Char *	GetViewportRenderId (VIEWPORT_RENDER_ID typeId) const
BaseList2D *	GetNext ()
BaseList2D *	GetPred ()
BaseContainer	GetData ()
void	SetData (const BaseContainer &bc, Bool add=true)
const BaseContainer *	GetDataInstance () const
BaseContainer *	GetDataInstance ()
const BaseContainer &	GetDataInstanceRef () const
BaseContainer &	GetDataInstanceRef ()
String	GetName () const
void	SetName (const maxon::String &name)
String	GetBubbleHelp ()
Bool	TransferGoal (BaseList2D *dst, Bool undolink)
Bool	TransferMarker (BaseList2D *dst) const
Bool	Scale (Float scale)
Bool	Edit ()
void	GetIcon (IconData *dat)
GeListHead *	GetNLARoot ()
BaseList2D *	AnimationLayerRemap (BaseObject **layer=nullptr)
String	GetTypeName ()
BaseList2D *	GetMain () const
void	InsertTrackSorted (CTrack *track)
Bool	AddEventNotification (BaseList2D *bl, NOTIFY_EVENT eventid, NOTIFY_EVENT_FLAG flags, const BaseContainer *data)
Bool	RemoveEventNotification (BaseDocument *doc, BaseList2D *bl, NOTIFY_EVENT eventid)
Bool	FindEventNotification (BaseDocument *doc, BaseList2D *bl, NOTIFY_EVENT eventid)
Bool	SetDescIDState (const DescID &id, DESCIDSTATE descidstate)
DESCIDSTATE	GetDescIDState (const DescID &id, Bool tolerant) const
GeListHead *	GetOverrideRoot ()
BaseOverride *	GetFirstOverride ()
GeListHead *	GetShaderRepositoryRoot ()
GeListHead *	GetHiddenShaderRoot ()
maxon::NimbusForwardRef	GetNimbusRef (const maxon::Id &spaceId) const
maxon::Result< maxon::NimbusForwardRef >	PrivateGetOrCreateNimbusRef (const maxon::Id &spaceId)
void	RemoveNimbusRef (const maxon::Id &spaceId)
maxon::Result< maxon::HashMap< maxon::Id, maxon::NimbusForwardRef > >	GetAllNimbusRefs () const
Bool	IsNodeBased () const
void	GetMarkerStampEx (UInt32 *l1, UInt32 *l2)
const GeMarker &	GetMarker () const
void	SetMarker (const GeMarker &m)
Bool	AddUniqueID (Int32 appid, const Char *const mem, Int bytes)
Bool	FindUniqueID (Int32 appid, const Char *&mem, Int &bytes) const
Int32	GetUniqueIDCount () const
Bool	GetUniqueIDIndex (Int32 idx, Int32 &id, const Char *&mem, Int &bytes) const
Bool	SetAnimatedParameter (CTrack *track, const DescID &id, const GeData &t_data1, const GeData &t_data2, Float mix, DESCFLAGS_SET flags)
Bool	GetAnimatedParameter (const DescID &id, GeData &t_data1, GeData &t_data2, Float &mix, DESCFLAGS_GET flags)
BaseShader *	GetFirstShader () const
void	InsertShader (BaseShader *shader, BaseShader *pred=nullptr)
void	ClearKeyframeSelection ()
Bool	FindKeyframeSelection (const DescID &id)
Bool	SetKeyframeSelection (const DescID &id, Bool selection)
Bool	KeyframeSelectionContent ()
LayerObject *	GetLayerObject (BaseDocument *doc)
Bool	SetLayerObject (LayerObject *layer)
const LayerData *	GetLayerData (BaseDocument *doc, Bool rawdata=false)
Bool	SetLayerData (BaseDocument *doc, const LayerData &data)
GeListHead *	GetCTrackRoot ()
CTrack *	GetFirstCTrack ()
CTrack *	FindCTrack (const DescID &id)
Public Member Functions inherited from GeListNode
GeListNode *	GetNext ()
GeListNode *	GetPred ()
GeListNode *	GetDown ()
GeListNode *	GetUp ()
GeListNode *	GetDownLast ()
void	InsertBefore (GeListNode *bl)
void	InsertAfter (GeListNode *bl)
void	InsertUnder (GeListNode *bl)
void	InsertUnderLast (GeListNode *bl)
void	Remove ()
GeListHead *	GetListHead ()
Int32	GetNodeID (Int32 index=0) const
template<typename CAST >
const CAST *	GetNodeData (Int32 index=0) const
template<typename CAST >
CAST *	GetNodeData (Int32 index=0)
void	SetCustomData (GeListNode *node)
GeListNode *	GetCustomData ()
BaseDocument *	GetDocument ()
Int32	GetBranchInfo (BranchInfo *info, Int32 max, GETBRANCHINFO flags)
Bool	IsDocumentRelated ()
Int32	GetInfo () const
Bool	GetNBit (NBIT bit) const
UInt32	GetNBitMask (Int32 index) const
Bool	ChangeNBit (NBIT bit, NBITCONTROL bitmode)
Public Member Functions inherited from C4DAtom
Int32	GetType () const
Int32	GetRealType () const
Int32	GetDiskType () const
Bool	IsInstanceOf (Int32 id) const
Int32	GetClassification () const
Bool	Message (Int32 type, void *data=nullptr)
Bool	MultiMessage (MULTIMSG_ROUTE flags, Int32 type, void *data)
C4DAtom *	GetClone (COPYFLAGS flags, AliasTrans *trn)
Bool	CopyTo (C4DAtom *dst, COPYFLAGS flags, AliasTrans *trn)
Bool	Read (HyperFile *hf, Int32 id, Int32 level)
Bool	Write (HyperFile *hf)
Bool	ReadObject (HyperFile *hf, Bool readheader)
Bool	WriteObject (HyperFile *hf)
Bool	GetDescription (Description *description, DESCFLAGS_DESC flags)
Bool	GetParameter (const DescID &id, GeData &t_data, DESCFLAGS_GET flags)
Bool	SetParameter (const DescID &id, const GeData &t_data, DESCFLAGS_SET flags)
DynamicDescription *	GetDynamicDescription ()
Bool	GetEnabling (const DescID &id, const GeData &t_data, DESCFLAGS_ENABLE flags, const BaseContainer *itemdesc)
Bool	TranslateDescID (const DescID &id, DescID &res_id, C4DAtom *&res_at)
UInt32	GetDirty (DIRTYFLAGS flags) const
void	SetDirty (DIRTYFLAGS flags)
UInt32	GetHDirty (HDIRTYFLAGS mask) const
void	SetHDirty (HDIRTYFLAGS mask)
Static Public Member Functions inherited from BaseList2D
static BaseList2D *	Alloc (Int32 type)
static void	Free (BaseList2D *&bl)
Static Public Attributes inherited from BaseList2D
static const Int32	SETBIT_FLAG_NODIRTY
static const Int32	SETBIT_FLAG_REMOVE

Constructor & Destructor Documentation

BaseObject()

BaseObject ( )

private

~BaseObject()

~BaseObject ( )

private

Member Function Documentation

Alloc()

static BaseObject* Alloc ( Int32  type )

static

Allocates a base object. Destroy the allocated base object with Free(). Use AutoAlloc to automate the allocation and destruction based on scope.

Parameters

[in]

type

The object type: Object Types

Returns

The allocated base object, or nullptr if the allocation failed.

Free()

static void Free ( BaseObject *&  bl )

static

Destructs base objects allocated with Alloc(). Use AutoAlloc to automate the allocation and destruction based on scope.

Parameters

[in,out]

bl

The base object to destruct. If the pointer is nullptr nothing happens. The pointer is assigned nullptr afterwards.

GetNext()

BaseObject* GetNext

(

)

Gets the next object in the list. Convenience version of GeListNode::GetNext().

Returns

The next object, or nullptr if there is none. Cinema 4D owns the pointed object.

GetPred()

BaseObject* GetPred

(

)

Gets the previous object in the list. Convenience version of GeListNode::GetPred().

Returns

The previous base object, or nullptr if there is none. Cinema 4D owns the pointed object.

GetUp()

BaseObject* GetUp

(

)

Gets the parent object of the list node. Convenience version of GeListNode::GetUp().

Returns

The parent object, or nullptr if there is none. Cinema 4D owns the pointed object.

GetDown()

BaseObject* GetDown

(

)

Gets the first child object of the list node. Convenience version of GeListNode::GetDown().

Returns

The first child object, or nullptr if there is none. Cinema 4D owns the pointed object.

GetDownLast()

BaseObject* GetDownLast

(

)

Gets the last child base object of the list node. Convenience version of GeListNode::GetDownLast().

Returns

The last child object, or nullptr if there is none. Cinema 4D owns the pointed object.

GetAbsPos()

Vector GetAbsPos

(

)

const

Gets the absolute position of the object.
These are the absolute local coordinates within the parent object.
If the object has no parent then these are world coordinates.

See also

The BaseObject Manual

Returns

The object's absolute position.

SetAbsPos()

void SetAbsPos

(

const Vector &

v

)

Sets the absolute local position of the object within its parent.
These are the absolute local coordinates within the parent object.
If the object has no parent then these are world coordinates.

See also

The BaseObject Manual

Parameters

[in]

v

The object's absolute position to set.

GetAbsScale()

Vector GetAbsScale

(

)

const

Gets the absolute scale of the object.
This is relative to the object's parent if it has one.

See also

The BaseObject Manual

Returns

The object's absolute scale.

SetAbsScale()

void SetAbsScale

(

const Vector &

v

)

Sets the absolute scale of the object.
This is relative to the object's parent if it has one.

See also

The BaseObject Manual

Parameters

[in]

v

The object's absolute scale to set.

GetAbsRot()

Vector GetAbsRot

(

)

const

Gets the absolute HPB rotation of the object.
This is relative to the object's parent if it has one.

See also

The BaseObject Manual

Returns

The object's absolute HPB rotation.

SetAbsRot()

void SetAbsRot

(

const Vector &

v

)

Sets the absolute HPB rotation of the object.
This is relative to the object's parent if it has one.

See also

The BaseObject Manual

Parameters

[in]

v

The object's absolute HPB rotation to set.

GetFrozenPos()

Vector GetFrozenPos

(

)

const

Gets the frozen position of the object.

See also

The BaseObject Manual

Returns

The object's frozen position.

SetFrozenPos()

void SetFrozenPos

(

const Vector &

v

)

Sets the frozen position of the object.

See also

The BaseObject Manual

Parameters

[in]

v

The object's frozen position to set.

GetFrozenScale()

Vector GetFrozenScale

(

)

const

Gets the frozen scale of the object.

See also

The BaseObject Manual

Returns

The object's frozen scale.

SetFrozenScale()

void SetFrozenScale

(

const Vector &

v

)

Sets the frozen scale of the object.

See also

The BaseObject Manual

Parameters

[in]

v

The object's frozen scale to set.

GetFrozenRot()

Vector GetFrozenRot

(

)

const

Gets the frozen HPB rotation of the object.

See also

The BaseObject Manual

Returns

The object's frozen HPB rotation.

SetFrozenRot()

void SetFrozenRot

(

const Vector &

v

)

Sets the frozen HPB rotation of the object.

See also

The BaseObject Manual

Parameters

[in]

v

The object's frozen HPB rotation to set.

GetRelPos()

Vector GetRelPos

(

)

const

Get the relative position of the object.

See also

The BaseObject Manual

Returns

The object's relative position.

SetRelPos()

void SetRelPos

(

const Vector &

v

)

Sets the relative position of the object.

See also

The BaseObject Manual

Parameters

[in]

v

The object's relative position to set.

GetRelScale()

Vector GetRelScale

(

)

const

Gets the relative scale of the object.

See also

The BaseObject Manual

Returns

The object's relative scale.

SetRelScale()

void SetRelScale

(

const Vector &

v

)

Sets the relative scale of the object.

See also

The BaseObject Manual

Parameters

[in]

v

The object's relative scale to set.

GetRelRot()

Vector GetRelRot

(

)

const

Gets the relative HPB rotation of the object.

See also

The BaseObject Manual

Returns

The object's relative scale.

SetRelRot()

void SetRelRot

(

const Vector &

v

)

Sets the relative HPB rotation of the object.

See also

The BaseObject Manual

Parameters

[in]

v

The object's relative rotation to set.

GetMl()

const Matrix& GetMl

(

)

const

Gets the local matrix representing the object's position, scale and rotation.

Returns

The object's local matrix.

SetMl()

void SetMl

(

const Matrix &

m

)

Sets the local matrix representing the object's position, scale and rotation.

Parameters

[in]

m

The object's local matrix to set.

GetFrozenMln()

Matrix GetFrozenMln

(

)

const

Gets the frozen and normalized matrix of the object.

See also

The BaseObject Manual

Returns

The object's frozen and normalized matrix.

GetRelMln()

Matrix GetRelMln

(

)

const

Gets the relative and normalized matrix of the object.

See also

The BaseObject Manual

Returns

The object's relative and normalized matrix.

GetRelMl()

Matrix GetRelMl

(

)

const

Gets the relative matrix of the object.

See also

The BaseObject Manual

Returns

The object's relative matrix.

SetRelMl()

void SetRelMl

(

const Matrix &

m

)

Sets the relative matrix of the object.

See also

The BaseObject Manual

Parameters

[in]

m

The object's relative matrix to set.

GetMg()

Matrix GetMg

(

)

const

Gets the world (global) matrix representing the object's position, scale and rotation.

Warning

Only valid if the object is attached to a document. Virtual objects in caches and deform caches are not attached to a document, so this cannot be used for those objects.

Returns

The object's world matrix.

SetMg()

void SetMg

(

const Matrix &

m

)

Sets the world (global) matrix representing the object's position, scale and rotation.

Parameters

[in]

m

The object's world matrix to set.

GetMln()

Matrix GetMln

(

)

const

Gets the local normalized matrix representing the object's position, scale and rotation.

Returns

The object's normalized local matrix.

GetMgn()

Matrix GetMgn

(

)

const

Gets the world (global) normalized matrix representing the object's position, scale and rotation.

Returns

The object's normalized world matrix.

GetUpMg()

Matrix GetUpMg

(

)

const

Gets the world (global) matrix of the parent object representing the parent's position, scale and rotation.
If the object has no parent object then the method returns a unit matrix.

Returns

The parent object's world matrix.

CopyMatrixTo()

void CopyMatrixTo

(

BaseObject *

dst

)

Copies the object's matrix to another object.

Parameters

[in,out]

dst

The destination object to copy the matrix to.

GetMp()

Vector GetMp

(

)

Gets the object's bounding box center in local space.

Returns

The bounding box center.

GetRad()

Vector GetRad

(

)

Gets the object's bounding box radius (x/y/z).

Note

Works for all objects and is faster than manually finding the bounds of even polygon objects, because the radius is internally cached.

Returns

The object's bounding box radius.

GetDimension()

void GetDimension	(	Vector &	mp,
		Vector &	rad
	)

Gets the object's bounding box center in local space. This call combines the GetMp()/GetRad() in one call and is much more performant if you need both values.

Parameters

[out]	mp	center of the object
[out]	rad	radius of the object

GetEditorMode()

Int32 GetEditorMode

(

)

const

Gets the mode of the editor dot for the object.

Returns

The editor mode: MODE

GetEditorModeH()

Int32 GetEditorModeH

(

)

const

Gets the mode of the editor dot for the object.

Returns

The editor mode: MODE

SetEditorMode()

void SetEditorMode

(

Int32

mode

)

Sets the mode for of editor dot for the object.

Parameters

[in]

mode

The editor mode to set: MODE

GetRenderMode()

Int32 GetRenderMode

(

)

const

Gets the mode of the render dot for the object.

Returns

The render mode: MODE

GetRenderModeH()

Int32 GetRenderModeH

(

)

const

Gets the mode of the render dot for the object.

Returns

The render mode: MODE

SetRenderMode()

void SetRenderMode

(

Int32

mode

)

Sets the mode of the render dot for the object.

Parameters

[in]

mode

The render mode to set: MODE

GetDeformMode()

Bool GetDeformMode

(

)

const

Gets the enabled mode of the deformation/generator tick.

Returns

true if the deformer/generator is enabled, otherwise false.

SetDeformMode()

void SetDeformMode

(

Bool

mode

)

Sets the enabled mode of the deformation/generator tick.

Parameters

[in]

mode

true to enable the generator/deformer object, otherwise false.

GetRealDeformMode()

Int32 GetRealDeformMode

(

)

const

Gets the real deform mode (MODE_ON, MODE_OFF, MODE_UNKNOWN).

Returns

The real deform mode.

SetRealDeformMode()

void SetRealDeformMode

(

Int32

mode

)

Sets the real deform mode (MODE_ON, MODE_OFF, MODE_UNKNOWN).

Parameters

[in]

mode

MODE_ON, MODE_OFF or MODE_UNKNOWN.

GetUniqueIP()

Int32 GetUniqueIP

(

)

Gets the IP number for the object.
GetUniqueIP() and SetUniqueIP() allow Cinema 4D to identify and track objects between different frames (which is necessary for stuff like object motion blur).

In case of a static generator that is easy: for every frame there is exactly the same structure.
For a particle system however that is different: e.g. there could always be 3 objects (particles), but some might be the same, some might be new ones.
To allow Cinema 4D to track that stuff an IP-like system is used: each object can carry a unique Int32 number and Cinema 4D creates full paths from it, e.g. 5.7.102.43.65.2
This is done 100% internally.

Only generator objects that have variable output or generator objects that use GetHierarchyClone() need to program some extra lines.
Such objects need to set the bit OBJECT_UNIQUEENUMERATION. Then it needs to assign unique Int32 values to all objects returned (except for the top-level object, which is handled by Cinema 4D).

Example:
A generator has 3 objects, but those objects appear and disappear during time. Say that obj3 is child of obj1; obj1 and obj2 are children of main (which is returned). obj2 and obj3 might not be present:

main
  obj1
    [obj3]
  [obj2]

The generator will call:

if (obj1) obj->SetUniqueIP(1);
if (obj2) obj->SetUniqueIP(2);
if (obj3) obj->SetUniqueIP(3);

That is all that is needed. Cinema 4D will recognize which object matches another object at a different time.
If GetHierarchyClone() is called those objects already have a unique numeration. It is only needed to assign a unique value to the top level:

obj1 = GetHierarchyClone(...);
obj2 = GetHierarchyClone(...);
...
if (obj1) obj1->SetUniqueIP(1);
if (obj2) obj2->SetUniqueIP(2);

Returns

The IP number for the object.

SetUniqueIP()

void SetUniqueIP

(

Int32

ip

)

Sets the IP number for the object.

See also

GetUniqueIP()

Parameters

[in]

ip

The new IP number.

GetFirstTag()

BaseTag* GetFirstTag

(

)

Gets the first tag associated with the object.

Returns

The first tag, or nullptr if no tags available. The object owns the pointed tag.

GetLastTag()

BaseTag* GetLastTag

(

)

Gets the last tag associated with the object.

Since

R19

Returns

The last tag, or nullptr if no tags available. The object owns the pointed tag.

GetTag()

BaseTag* GetTag	(	Int32	type,
		Int32	nr = 0
	)

Gets a tag of a certain type associated with the object.

Parameters

[in]	type	The type of tag to fetch from the object: Tag Types
[in]	nr	Optionally specify a starting tag index to begin the search. If the requested number is not available then nullptr will be returned even if there is a tag of that type with a different index.

Returns

The requested tag, or nullptr if no tags of the requested type are available. The object owns the pointed tag.

GetTagsOfType()

const maxon::BaseArray<BaseTag*>* GetTagsOfType

(

Int32

type

)

const

Gets an array of tags of a certain type associated with the object.

Parameters

[in]

type

The type of tags to fetch from the object: Tag Types

Returns

An array of tags with the given type.

GetTagsWithFlags()

const maxon::BaseArray<BaseTag*>* GetTagsWithFlags

(

Int32

flags

)

const

Gets an array of tags with certain flags associated with the object.

Parameters

[in]

flags

The flags of tags to fetch from the object: Tag Types

Returns

An array of tags with the given type.

GetTagDataR()

const void* GetTagDataR	(	Int32	type,
		Int32	nr = 0
	)		const

Gets a variable tag's readable data of a certain type associated with the object.

Parameters

[in]	type	The type of tag to fetch the data for: VariableTag Types
[in]	nr	Optionally specify a starting tag index to begin the search.

Returns

The variable tag's readable data, nullptr if this is not a variable tag or the tag could not be found. The tag owns the pointed data.

GetTagDataW()

void* GetTagDataW	(	Int32	type,
		Int32	nr = 0
	)

Gets a variable tag's writable data of a certain type associated with the object.

Parameters

[in]	type	The type of tag to fetch the data for: VariableTag Types
[in]	nr	Optionally specify a starting tag index to begin the search.

Returns

The variable tag's writable data, nullptr if this is not a variable tag or the tag could not be found. The tag owns the pointed data.

GetTagDataCount()

Int32 GetTagDataCount

(

Int32

type

)

const

Gets the variable tag data count.

Parameters

[in]

type

The type of tag to fetch the data for: VariableTag Types

Returns

The data count in the variable tag.

MakeTag()

BaseTag* MakeTag	(	Int32	type,
		BaseTag *	pred = nullptr
	)

Creates and associates a tag with the object.

Parameters

[in]	type	The type of tag to create: Tag Types
[in]	pred	The previous tag to insert the tag after, or nullptr if the tag should be inserted at the start of the tag list. The caller owns the pointed tag.

Returns

The new tag, or nullptr if failed. The object owns the pointed tag.

MakeVariableTag()

VariableTag* MakeVariableTag	(	Int32	type,
		Int32	count,
		BaseTag *	pred = nullptr
	)

Creates and associates a variable tag with the object.

Parameters

[in]	type	The type of variable tag to create: VariableTag Types
[in]	count	The data count.
[in]	pred	The previous tag to insert the tag after, or nullptr if the tag should be inserted at the start of the tag list. The caller owns the pointed tag.

Returns

The new variable tag, or nullptr if failed. The object owns the pointed variable tag.

InsertTag()

void InsertTag	(	BaseTag *	tp,
		BaseTag *	pred = nullptr
	)

Inserts tag into the object's tag list.

Warning

If the tag type was not registered with TAG_MULTIPLE, any existing old tag of same type will be implicitly removed. Any previous reference to the old tag will be invalid afterwards.

Parameters

[in]	tp	The tag to insert. The object takes over the ownership of the pointed tag.
[in]	pred	The previous tag to insert the tag after, or nullptr if the tag should be inserted at the start of the tag list. The caller owns the pointed tag.

KillTag()

void KillTag	(	Int32	type,
		Int32	nr = 0
	)

Removes a tag from the object and frees its resources.

Parameters

[in]	type	The type of tag to remove: Tag Types
[in]	nr	Optionally specify a starting tag index to begin the search.

CopyTagsTo()

Bool CopyTagsTo	(	BaseObject *	dest,
		Int32	visible,
		Int32	variable,
		Int32	hierarchical,
		AliasTrans *	trans
	)

Copies the object's tags to another object.

Parameters

[in]	dest	The destination object. The caller owns the pointed object.
[in]	visible	true if the tag must be visible, false if it must not be visible or NOTOK if it can be either (if this property does not need to be checked).
[in]	variable	true if the tag must be variable, false if it must not be variable or NOTOK if it can be either (if this property does not need to be checked).
[in]	hierarchical	true if the tag must be hierarchical, false if it must not be hierarchical or NOTOK if it can be either (if this property does not need to be checked).
[in]	trans	An alias translator for the operation. Can be nullptr. The caller owns the pointed alias translator.

Returns

true if the tags were copied successfully, otherwise false.

GetCache()

BaseObject* GetCache

(

HierarchyHelp *

hh = nullptr

)

Gets the object from the previously built cache.
Situations can be quite complex in Cinema 4D. For instance GetCache() could return a list of objects.
For example the default Sweep Generator internally has some built-in caches for the sweep surface and for the caps.
The following helper routine can be used to make things easier. It browses through this rather complex hierarchy of objects and caches recursively:

void DoRecursion(BaseObject *op)
{
  BaseObject* tp = op->GetDeformCache();
  if (tp)
  {
    DoRecursion(tp);
  }
  else
  {
    tp = op->GetCache(nullptr);
    if (tp)
    {
      DoRecursion(tp);
    }
    else
    {
      if (!op->GetBit(BIT_CONTROLOBJECT))
      {
        if (op->IsInstanceOf(Opolygon))
        {
          ...
        }
      }
    }
  }
 
  for (tp = op->GetDown(); tp; tp=tp->GetNext())
  {
    DoRecursion(tp);
  }
}

Remember:
Use the above routine only if the caches are already built. It is for instance not safe to use it in a command plugin since the user can have stopped the scene redraw and the building of caches.

See also

CheckCache() GetDeformCache()

Parameters

[in]

hh

A hierarchy help, usually passed from the calling method parameters, for example ObjectData::GetVirtualObjects(). The caller owns the pointed hierarchy help. Usually nullptr. Only for some special cases a hierarchy help must be passed.

Returns

The object's previously built cache or nullptr. The object owns the pointed object's cache.
May return nullptr if the cache is not available or is not yet built.

See also

Hierarchy if a plugin needs access to pre-built caches.

GetDeformCache()

BaseObject* GetDeformCache

(

)

Gets the previously built cache that has been deformed by an active deformer.
It is important to understand the concept how the deformer cache operates.
For each object in the hierarchy that generates a polygonal cache a deformer cache could also have been created by an active deformer object.
A simple example will help to see how this works:

Take the simple hierarchy shown above, the array generator object creates a virtual hierarchy in the cache, this can be retrieved using GetCache().
This hierarchy is:

From each of the Cube objects a further cache is generated, this time polygonal:

From these the deformer object generates a deformed polygon cache:

So the final hierarchy is:

When a deformer becomes active every object/cache object gets a deform cache (if it was a polygonal object). The deformer cache is always polygonal and is only ever a single object.
Important:
The caches are always built after all plugins and expressions have been called.
If the virtual objects have to be accessed to obtain a polygonal based object it is generally advised to call SendModelingCommand() with MCOMMAND_CURRENTSTATETOOBJECT::
This will rebuild the cache for the passed object if needed, and then clone the polygonal objects.
Another possible solution is to use the Hierarchy class, this will give full access to all virtual objects, or can be used to just rebuild the internal caches.
But be aware that rebuilding the internal caches can cause serious overhead, be time consuming and if called too soon in the pipeline, the caches may need to be rebuilt afterwards.

Returns

The objects previously built deformed cache or nullptr. The object owns the pointed object's cache.
May return nullptr if the cache is not available or is not yet built.

See also

Hierarchy if a plugin needs access to pre-built caches.

GetIsoparm()

LineObject* GetIsoparm

(

)

Gets the previously built isoparm representation of the object.

Returns

The isoparm representation of the object or nullptr. The object owns the pointed isoparm.
May return nullptr if the isoparm is not available or is not yet built.

See also

Hierarchy if a plugin needs access to pre-built caches.

SetIsoparm()

void SetIsoparm

(

LineObject *

l

)

Sets the isoparm representation of the object.

Warning

Must only be called from within ObjectData::GetVirtualObjects() of a generator object.

Parameters

[in]

l

The isoparm representation of the object to set. The object takes over the ownership of the pointed isoparm.

GetCacheParent()

BaseObject* GetCacheParent

(

)

const

A cache/deform object has no GetUp() link. Instead this method can be called to detect the cache building parent.

Returns

The cache parent or nullptr. The object owns the pointed cache parent.

GetCacheTopParent()

BaseObject* GetCacheTopParent

(

)

const

A cache/deform object has no GetUp() link. Instead this method can be called to detect the top cache building parent.

Returns

The top cache parent or nullptr. The object owns the pointed top cache parent.

SetPhong()

Bool SetPhong	(	Bool	on,
		Bool	anglelimit,
		Float	angle
	)

Sets the phong smoothing for the object.
Deletes any existing Phong tag. If on is set to true it creates a new Phong tag.

Parameters

[in]	on	false removes the Phong tag from the object. true creates a new Phong tag.
[in]	anglelimit	true if angle should be used.
[in]	angle	The phong angle.

Returns

true if the phong smoothing was changed successfully, otherwise false.

IsDirty()

Bool IsDirty

(

DIRTYFLAGS

flags

)

Checks if the object has been changed since the last time the object was touched.

Parameters

[in]

flags

The object part to check: DIRTYFLAGS

Returns

true if the object is dirty, otherwise false.

SetDirty()

void SetDirty

(

DIRTYFLAGS

flags

)

Sets if any part of the object was changed.

Parameters

[in]

flags

The object part that was changed: DIRTYFLAGS

CheckCache()

Bool CheckCache

(

HierarchyHelp *

hh

)

Check if cache is built and if it matches the requirements (polygonized/isoparm, level of detail etc.)

Note

Must only be called from within ObjectData::GetVirtualObjects() of a generator object.

Parameters

[in]

hh

A HierarchyHelp, usually passed from the calling method parameters, for instance ObjectData::GetVirtualObjects().

Returns

true if the cache is dirty, false if it is valid.

Touch()

void Touch

(

)

Marks object to be used by generator. Automatically resets dirty values for use with IsDirty().

GetColorProperties()

void GetColorProperties

(

ObjectColorProperties *

prop

)

Gets the object's color properties and fill prop.

Parameters

[in]

prop

Filled with the color properties. The caller owns the pointed color properties.

SetColorProperties()

void SetColorProperties

(

ObjectColorProperties *

prop

)

Sets the object's color properties from prop.

Parameters

[in]

prop

The color properties to set. The caller owns the pointed color properties.

GetModelingAxis()

const Matrix& GetModelingAxis

(

BaseDocument *

doc

)

Gets the internal matrix for the modeling axis.

Note

To access the axis type, and other axis options, use the IDs defined in ToolModelingAxis.h.

Parameters

[in]

doc

The document for the operation. The caller owns the pointed document.

Returns

The modeling axis.

SetModelingAxis()

void SetModelingAxis

(

const Matrix &

m

)

Sets the internal matrix for the modeling axis.

Note

To access the axis type, and other axis options, use the IDs in ToolModelingAxis.res. Here is a code sample:

void SetToolData(BaseDocument *doc, Int32 pluginid, Int32 dataid, const GeData &dat)
{
  BasePlugin *plug = static_cast<BasePlugin*>(FindPlugin(pluginid, PLUGINTYPE::TOOL));
  if (!plug) return;
  plug->SetParameter(DescID(dataid), dat, 0);
}
 
SetToolData(doc, ID_MODELING_LIVESELECTION, MDATA_AXIS_MODE, MDATA_AXIS_MODE_FREE);

If the matrix is changed so that it does not fit the current mode the axis mode should be set to MDATA_AXIS_MODE_FREE.

Parameters

[in]

m

The new modeling axis to set.

GetAndCheckHierarchyClone() [1/2]

BaseObject* GetAndCheckHierarchyClone	(	HierarchyHelp *	hh,
		BaseObject *	op,
		HIERARCHYCLONEFLAGS	flags,
		Bool *	dirty,
		AliasTrans *	trans,
		Int	childCount,
		maxon::BaseArray< BaseObject * > *	children,
		Bool	addChildOrClone = false
	)

Checks and generates a clone of the child objects of a parent generator.
Similar to GetHierarchyClone() except that it checks if the hierarchy is dirty and if not it does not need to generate a new clone.

See also

GetHierarchyClone()

Parameters

[in]	hh	Usually passed through from a calling method, for instance from ObjectData::GetVirtualObjects(). The caller owns the pointed hierarchy helper.
[in]	op	The object to start the clone from, usually the first child of the parent object. The caller owns the pointed object.
[in]	flags	The flags for the generation of the cloned chain. The values are: HIERARCHYCLONEFLAGS
[in]	dirty	Assigned the state of any changes to the chain. true if some part of the child objects in the chain has changed, otherwise false.
[in]	trans	An alias translator for the operation. Can be nullptr. The caller owns the pointed alias translator.
[in]	childCount	Maximum number of children to check (starting at the first child). With a negative value the function checks exactly one child and doesn't create a parent Null object for the clones.
[in]	children	An optional array where the generated clones are added. For each child there will be one entry, even if no clone is generated for that child (then the entry will be nullptr or the child depending on addChildOrClone). Note that this array gets filled only in the dirty case.
[in]	addChildOrClone	When true, the original child will be added to children instead of a nullptr in the case of a child which doesn't generate a clone.

Returns

The cloned objects. The caller owns the pointed object.

GetAndCheckHierarchyClone() [2/2]

BaseObject* GetAndCheckHierarchyClone	(	HierarchyHelp *	hh,
		BaseObject *	op,
		HIERARCHYCLONEFLAGS	flags,
		Bool *	dirty,
		AliasTrans *	trans,
		Bool	allchildren
	)

Checks and generates a clone of the child objects of a parent generator.
Similar to GetHierarchyClone() except that it checks if the hierarchy is dirty and if not it does not need to generate a new clone.

See also

GetHierarchyClone()

Parameters

[in]	hh	Usually passed through from a calling method, for instance from ObjectData::GetVirtualObjects(). The caller owns the pointed hierarchy helper.
[in]	op	The object to start the clone from, usually the first child of the parent object. The caller owns the pointed object.
[in]	flags	The flags for the generation of the cloned chain. The values are: HIERARCHYCLONEFLAGS
[in]	dirty	Assigned the state of any changes to the chain. true if some part of the child objects in the chain has changed, otherwise false.
[in]	trans	An alias translator for the operation. Can be nullptr. The caller owns the pointed alias translator.
[in]	allchildren	true if all children should be used in the check.

Returns

The cloned objects. The caller owns the pointed object.

GetHierarchyClone() [1/2]

BaseObject* GetHierarchyClone	(	HierarchyHelp *	hh,
		BaseObject *	op,
		HIERARCHYCLONEFLAGS	flags,
		Bool *	dirty,
		AliasTrans *	trans
	)

Generates a clone of the child objects of a parent generator.

Note

The result given by GetAndCheckHierarchyClone() will be a chain of objects with various types.
Passing HIERARCHYCLONEFLAGS::ASLINE e.g. will force all splines to be converted, but not every object in the chain will be of type Oline; some objects like PolygonObject cannot be converted, also Onull.

Parameters

[in]	hh	Usually passed through from a calling method, for instance from ObjectData::GetVirtualObjects(). The caller owns the pointed hierarchy helper.
[in]	op	The object to start the clone from, usually the parent object itself. The caller owns the pointed object.
[in]	flags	The flags for the generation of the cloned chain. The values are: HIERARCHYCLONEFLAGS
[in]	dirty	Has to be set to nullptr for the cloning to take place. Set to true if some part of the child objects in the chain has changed, or false if nothing has changed.
[in]	trans	An alias translator for the operation. Can be nullptr. The caller owns the pointed alias translator.

Returns

The cloned object(s). The caller owns the pointed object.

GetHierarchyClone() [2/2]

BaseObject* GetHierarchyClone	(	HierarchyHelp *	hh,
		BaseObject *	op,
		HIERARCHYCLONEFLAGS	flags,
		Bool *	dirty,
		AliasTrans *	trans,
		DIRTYFLAGS	dirtyflags
	)

Generates a clone of the child objects of a parent generator. This version accepts dirtyflags parameter.

Since

R19

Note

The result given by GetAndCheckHierarchyClone() will be a chain of objects with various types.
Passing HIERARCHYCLONEFLAGS::ASLINE e.g. will force all splines to be converted, but not every object in the chain will be of type Oline; some objects like PolygonObject cannot be converted, also Onull.

Parameters

[in]	hh	Usually passed through from a calling method, for instance from ObjectData::GetVirtualObjects(). The caller owns the pointed hierarchy helper.
[in]	op	The object to start the clone from, usually the parent object itself. The caller owns the pointed object.
[in]	flags	The flags for the generation of the cloned chain. The values are: HIERARCHYCLONEFLAGS
[in]	dirty	Has to be set to nullptr for the cloning to take place. Set to true if some part of the child objects in the chain has changed, or false if nothing has changed.
[in]	trans	An alias translator for the operation. Can be nullptr. The caller owns the pointed alias translator.
[in]	dirtyflags	The dirty flags stored within the dependence list.

Returns

The cloned object(s). The caller owns the pointed object.

NewDependenceList()

void NewDependenceList

(

)

Starts a new dependence list. Enables to keep track of changes made to any children.

CompareDependenceList()

Bool CompareDependenceList

(

)

Compares if anything in the dependence list has changed.

Returns

true if the dependence list has not changed, otherwise false.

AddDependence() [1/2]

void AddDependence	(	HierarchyHelp *	hh,
		BaseObject *	op
	)

Adds a child object to the dependence list.
Usually op is a child object used by a generator object.

Parameters

[in]	hh	Usually passed from a calling method, for example from ObjectData::GetVirtualObjects(). The caller owns the pointed hierarchy help.
[in]	op	The child object to add to the dependence list. Should be a child object used by the generator object. The caller owns the pointed object.

AddDependence() [2/2]

void AddDependence	(	HierarchyHelp *	hh,
		BaseObject *	op,
		DIRTYFLAGS	dirtyflags
	)

Adds a child object to the dependence list. This version accepts dirtyflags parameter.

Since

R19

Parameters

[in]	hh	Usually passed from a calling method, for example from ObjectData::GetVirtualObjects(). The caller owns the pointed hierarchy help.
[in]	op	The child object to add to the dependence list. Should be a child object used by the generator object. The caller owns the pointed object.
[in]	dirtyflags	The dirty flags stored within the dependence list.

TouchDependenceList()

void TouchDependenceList

(

)

Marks all the objects in the dependence list to be replaced by the generator.

SetRotationOrder()

void SetRotationOrder

(

ROTATIONORDER

order

)

Sets the rotation order of the object.

Parameters

[in]

order

The rotation order to set for the object: ROTATIONORDER

GetRotationOrder()

ROTATIONORDER GetRotationOrder

(

)

const

Gets the rotation order of the object.

Returns

The rotation order of the object: ROTATIONORDER

SetQuaternionRotationMode()

void SetQuaternionRotationMode	(	Bool	active,
		Bool	bUndo
	)

Sets the Synchronized Rotation Mode of the object.

Since

R18

Parameters

[in]	active	Enable/Disable the Synchronized Rotation mode for the object.
[in]	bUndo	Add undo to value changed (need to manage start and end externally).

IsQuaternionRotationMode()

Bool IsQuaternionRotationMode

(

)

Checks if Object Rotation is interpolated in Quaternion Mode.

Since

R18

Returns

true if Rotation Interpolation is Quaternion, otherwise false.

SynchronizeVectorTrackKeys()

Bool SynchronizeVectorTrackKeys	(	Int32	vectorTrackID,
		Bool	bUndo,
		BaseTime	startRange = BaseTime(-108000, 1),
		BaseTime	endRange = BaseTime(108000, 1)
	)

Makes sure that the track Curves component are synchronized (keys on each component). If a component track is found, the other track component will be synchronized.

Since

R18

Parameters

[in]	vectorTrackID	ID of the Vector Track to synchronize.
[in]	bUndo	Add undo to value changed (need to manage start and end externally).
[in]	startRange	Optional start operation at given time.
[in]	endRange	Optional end operation at given time.

Returns

true if Track Synchronization was successful, otherwise false.

FindBestEulerAngle()

Bool FindBestEulerAngle	(	Int32	rotationTrackID,
		Bool	bAdjustTangent,
		Bool	bUndo,
		BaseTime	startRange = BaseTime(-108000, 1),
		BaseTime	endRange = BaseTime(108000, 1)
	)

Tries to find the best Euler Angle according to the previous key. The Object must have keys on each component.

Since

R18

Parameters

[in]	rotationTrackID	Rotation Track ID to manage (relative, global, absolute, frozen).
[in]	bAdjustTangent	Try to adjust the tangent with new value, if false auto is used.
[in]	bUndo	Add undo to value changed (need to manage start and end externally).
[in]	startRange	Optional start operation at given time.
[in]	endRange	Optional end operation at given time.

Returns

true if Rotation Synchronization was successful, otherwise false.

EvaluateSynchronizedRotation()

Bool EvaluateSynchronizedRotation	(	const BaseTime &	time,
		ANIMATEFLAGS	flags,
		Vector *	resultRotation = nullptr
	)

Forces an evaluation of all rotation tracks and consider Quaternion interpolation. This will directly update attribute values if no vector is specified for resultRotation.

Since

R18

Parameters

[in]	time	Evaluation time.
[in]	flags	The animate flags: ANIMATEFLAGS
[in]	resultRotation	Optionally store result in Vector instead of updating attributes.

Returns

true if evaluation was a success, otherwise false.

GetVectorTracks()

Bool GetVectorTracks	(	const DescID &	id,
		CTrack *&	xfound,
		CTrack *&	yfound,
		CTrack *&	zfound
	)

Returns each component track for the given DescID.

Since

R18

Parameters

[in]	id	ID of desired vector.
[out]	xfound	X Track of Vector if found.
[out]	yfound	Y Track of Vector if found.
[out]	zfound	Z Track of Vector if found.

Returns

true if successful, otherwise false.

GetVectorCurves()

Bool GetVectorCurves	(	CCurve *	curveToSearch,
		CCurve *&	xfound,
		CCurve *&	yfound,
		CCurve *&	zfound
	)

Returns each component CCurve for the given curve.

Since

R18

Parameters

[in]	curveToSearch	CCurve Component of desired vector.
[out]	xfound	X CCurve of Vector if found.
[out]	yfound	Y CCurve of Vector if found.
[out]	zfound	Z CCurve of Vector if found.

Returns

true if successful, otherwise false.

GetGUID()

UInt64 GetGUID

(

)

Gets a unique ID for any object in a document.
Works for generated objects in a cache (e.g. clones generated by a MoGraph cloner) and also for 'real' objects in the document (GetUniqueIP() does not do this).

Note

The ID generation for cache objects is based on GetUniqueIP(), so if two cache objects have the same IP, they will probably also get the same GUID
(unless they are PointObject or PolygonObject with different point or polygon count).
The ID generation for 'real' objects is based on the object's GeMarker, so if an object has no marker it will not return a unique ID.

Returns

A checksum for the object.

GetHighlightHandle()

Int32 GetHighlightHandle

(

BaseDraw *

bd

)

Checks if a highlight handle has been hit.
Returns the handle ID previously given by ObjectData::DetectHandle(). The handle can then be drawn in the highlight mode.

Parameters

[in]

bd

The base draw for the operation. The caller owns the pointed base draw.

Returns

The handle ID.

GetRealSpline()

SplineObject* GetRealSpline

(

)

Gets a real spline representation of a primitive spline object.
This can for example be used to calculate the length of a spline.
If the object is a real spline it returns this. Otherwise nullptr.

Returns

The real spline object. The object owns owns the pointed spline.

Note

The matrix of the returned object must not be used. Use the matrix of *this instead.

GetVisibility()

Float GetVisibility

(

Float

parent

)

Gets the object's visibility value. The range of values are 0.0 <= visibility <= 1.0.
The object's visibility depends upon its parent, if it has no visibility track this will return the parent's visibility which is passed.

Note

In the editor only a visibility of 0.0 can be noticed but all other intermediate values are visualized in render only.

Parameters

[in]

parent

The parent object's visibility.

Returns

The visibility.

SearchHierarchy()

Bool SearchHierarchy

(

BaseObject *

op

)

Checks if the object is a child of op.

Parameters

[in]

op

The object to search within his hierarchy.

Returns

true if the object is a child of op, otherwise false.

GetOrigin()

BaseObject* GetOrigin

(

Bool

safe

)

Private.

SetOrigin()

void SetOrigin

(

BaseObject *

origin

)

Private.

GetTopOrigin()

BaseObject* GetTopOrigin	(	Bool	parent,
		Bool	safe
	)

Private.

GetEditObject()

BaseObject* GetEditObject	(	BaseObject **	psds,
		DISPLAYEDITSTATE	state,
		Bool	safetey = true
	)

Private.

RemoveFromCache()

void RemoveFromCache

(

)

Private.

ObjDraw()

DRAWRESULT ObjDraw	(	DRAWPASS	drawpass,
		BaseDraw *	bd,
		BaseDrawHelp *	bh
	)

Private.