ActiViz .NET
5.8.0
|
vtkQuadricLODActor - a specific level-of-detail strategy using the quadric clustering decimation algorithm More...
Public Types | |
enum | DataConfigurationEnum { UNKNOWN = 0, XLINE = 1, XYPLANE = 4, XYZVOLUME = 7, XZPLANE = 5, YLINE = 2, YZPLANE = 6, ZLINE = 3 } |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing. More... | |
enum | PropTypeEnum { ACTOR = 1, FOLLOWER = 0 } |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData. More... | |
Public Member Functions | |
vtkQuadricLODActor (IntPtr rawCppThis, bool callDisposalMethod, bool strong) | |
Automatically generated constructor - called from generated code. DO NOT call directly. | |
vtkQuadricLODActor () | |
Creates a vtkQuadricLODActor. | |
virtual void | DeferLODConstructionOff () |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false). | |
virtual void | DeferLODConstructionOn () |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false). | |
virtual vtkCamera | GetCamera () |
Set/Get the camera to follow. This method is only applicable when the prop type is set to a vtkFollower. | |
virtual double | GetCollapseDimensionRatio () |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05. | |
virtual double | GetCollapseDimensionRatioMaxValue () |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05. | |
virtual double | GetCollapseDimensionRatioMinValue () |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05. | |
virtual int | GetDataConfiguration () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
virtual int | GetDataConfigurationMaxValue () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
virtual int | GetDataConfigurationMinValue () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
virtual int | GetDeferLODConstruction () |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false). | |
virtual vtkQuadricClustering | GetLODFilter () |
This class will create a vtkQuadricClustering algorithm automatically. However, if you would like to specify the filter to use, or to access it and configure it, these method provide access to the filter. | |
virtual int | GetMaximumDisplayListSize () |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData. | |
virtual int | GetMaximumDisplayListSizeMaxValue () |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData. | |
virtual int | GetMaximumDisplayListSizeMinValue () |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData. | |
virtual int | GetPropType () |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor. | |
virtual int | GetPropTypeMaxValue () |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor. | |
virtual int | GetPropTypeMinValue () |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor. | |
virtual int | GetStatic () |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing. | |
override int | IsA (string type) |
Standard class methods. | |
new vtkQuadricLODActor | NewInstance () |
Standard class methods. | |
override void | ReleaseGraphicsResources (vtkWindow arg0) |
Release any graphics resources that are being consumed by this actor. The parameter window could be used to determine which graphic resources to release. | |
override void | Render (vtkRenderer arg0, vtkMapper arg1) |
This causes the actor to be rendered. Depending on the frame rate request, it will use either a full resolution render or an interactive render (i.e., it will use the decimated geometry). | |
override int | RenderOpaqueGeometry (vtkViewport viewport) |
This method is used internally by the rendering process. We overide the superclass method to properly set the estimated render time. | |
void | SetCamera (vtkCamera arg0) |
Set/Get the camera to follow. This method is only applicable when the prop type is set to a vtkFollower. | |
virtual void | SetCollapseDimensionRatio (double _arg) |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05. | |
virtual void | SetDataConfiguration (int _arg) |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToUnknown () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToXLine () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToXYPlane () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToXYZVolume () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToXZPlane () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToYLine () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToYZPlane () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
void | SetDataConfigurationToZLine () |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar. | |
virtual void | SetDeferLODConstruction (int _arg) |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false). | |
void | SetLODFilter (vtkQuadricClustering lodFilter) |
This class will create a vtkQuadricClustering algorithm automatically. However, if you would like to specify the filter to use, or to access it and configure it, these method provide access to the filter. | |
virtual void | SetMaximumDisplayListSize (int _arg) |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData. | |
virtual void | SetPropType (int _arg) |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor. | |
void | SetPropTypeToActor () |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor. | |
void | SetPropTypeToFollower () |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor. | |
virtual void | SetStatic (int _arg) |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing. | |
override void | ShallowCopy (vtkProp prop) |
Shallow copy of an LOD actor. Overloads the virtual vtkProp method. | |
virtual void | StaticOff () |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing. | |
virtual void | StaticOn () |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing. | |
Static Public Member Functions | |
static new vtkQuadricLODActor | New () |
Creates a vtkQuadricLODActor. | |
static new int | IsTypeOf (string type) |
Standard class methods. | |
static new vtkQuadricLODActor | SafeDownCast (vtkObjectBase o) |
Standard class methods. | |
Public Attributes | |
new const string | MRFullTypeName = "Kitware.VTK.vtkQuadricLODActor" |
Automatically generated type registration mechanics. | |
Static Public Attributes | |
static new readonly string | MRClassNameKey = "18vtkQuadricLODActor" |
Automatically generated type registration mechanics. | |
Protected Member Functions | |
override void | Dispose (bool disposing) |
Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly. | |
Private Member Functions | |
static internal IntPtr | vtkQuadricLODActor_New (ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount) |
static internal void | vtkQuadricLODActor_DeferLODConstructionOff_01 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_DeferLODConstructionOn_02 (HandleRef pThis) |
static internal IntPtr | vtkQuadricLODActor_GetCamera_03 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount) |
static internal double | vtkQuadricLODActor_GetCollapseDimensionRatio_04 (HandleRef pThis) |
static internal double | vtkQuadricLODActor_GetCollapseDimensionRatioMaxValue_05 (HandleRef pThis) |
static internal double | vtkQuadricLODActor_GetCollapseDimensionRatioMinValue_06 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetDataConfiguration_07 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetDataConfigurationMaxValue_08 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetDataConfigurationMinValue_09 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetDeferLODConstruction_10 (HandleRef pThis) |
static internal IntPtr | vtkQuadricLODActor_GetLODFilter_11 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount) |
static internal int | vtkQuadricLODActor_GetMaximumDisplayListSize_12 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetMaximumDisplayListSizeMaxValue_13 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetMaximumDisplayListSizeMinValue_14 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetPropType_15 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetPropTypeMaxValue_16 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetPropTypeMinValue_17 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_GetStatic_18 (HandleRef pThis) |
static internal int | vtkQuadricLODActor_IsA_19 (HandleRef pThis, string type) |
static internal int | vtkQuadricLODActor_IsTypeOf_20 (string type) |
static internal IntPtr | vtkQuadricLODActor_NewInstance_22 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount) |
static internal void | vtkQuadricLODActor_ReleaseGraphicsResources_23 (HandleRef pThis, HandleRef arg0) |
static internal void | vtkQuadricLODActor_Render_24 (HandleRef pThis, HandleRef arg0, HandleRef arg1) |
static internal int | vtkQuadricLODActor_RenderOpaqueGeometry_25 (HandleRef pThis, HandleRef viewport) |
static internal IntPtr | vtkQuadricLODActor_SafeDownCast_26 (HandleRef o, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount) |
static internal void | vtkQuadricLODActor_SetCamera_27 (HandleRef pThis, HandleRef arg0) |
static internal void | vtkQuadricLODActor_SetCollapseDimensionRatio_28 (HandleRef pThis, double _arg) |
static internal void | vtkQuadricLODActor_SetDataConfiguration_29 (HandleRef pThis, int _arg) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToUnknown_30 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToXLine_31 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToXYPlane_32 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToXYZVolume_33 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToXZPlane_34 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToYLine_35 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToYZPlane_36 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDataConfigurationToZLine_37 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetDeferLODConstruction_38 (HandleRef pThis, int _arg) |
static internal void | vtkQuadricLODActor_SetLODFilter_39 (HandleRef pThis, HandleRef lodFilter) |
static internal void | vtkQuadricLODActor_SetMaximumDisplayListSize_40 (HandleRef pThis, int _arg) |
static internal void | vtkQuadricLODActor_SetPropType_41 (HandleRef pThis, int _arg) |
static internal void | vtkQuadricLODActor_SetPropTypeToActor_42 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetPropTypeToFollower_43 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_SetStatic_44 (HandleRef pThis, int _arg) |
static internal void | vtkQuadricLODActor_ShallowCopy_45 (HandleRef pThis, HandleRef prop) |
static internal void | vtkQuadricLODActor_StaticOff_46 (HandleRef pThis) |
static internal void | vtkQuadricLODActor_StaticOn_47 (HandleRef pThis) |
Static Private Member Functions | |
static | vtkQuadricLODActor () |
Automatically generated type registration mechanics. |
vtkQuadricLODActor - a specific level-of-detail strategy using the quadric clustering decimation algorithm
Description vtkQuadricLODActor implements a specific strategy for level-of-detail using the vtkQuadricClustering decimation algorithm. It supports only two levels of detail: full resolution and a decimated version. The decimated LOD is generated using a tuned strategy to produce output consistent with the requested interactive frame rate (i.e., the vtkRenderWindowInteractor's DesiredUpdateRate). It also makes use of display lists for performance, and adjusts the vtkQuadricClustering algorithm to take into account the dimensionality of the data (e.g., 2D, x-y surfaces may be binned into n x n x 1 to reduce extra polygons in the z-direction). Finally, the filter may optionally be set in "Static" mode (this works with the vtkMapper::SetStatic() method). `Enabling Static results in a one time execution of the Mapper's pipeline. After that, the pipeline no longer updated (unless manually forced to do so).
Caveats By default the algorithm is set up to pre-compute the LODs. That is, on the first render (whether a full resolution render or interactive render) the LOD is computed. This behavior can be changed so that the LOD construction is deferred until the first interactive render. Either way, when the LOD is constructed, the user may notice a short pause.
This class can be used as a direct replacement for vtkActor. It may also be used as a replacement for vtkFollower's (the ability to track a camera is provided).
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing.
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData.
static Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor | ( | ) | [static, private] |
Automatically generated type registration mechanics.
Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor | ( | IntPtr | rawCppThis, |
bool | callDisposalMethod, | ||
bool | strong | ||
) |
Automatically generated constructor - called from generated code. DO NOT call directly.
virtual void Kitware.VTK.vtkQuadricLODActor.DeferLODConstructionOff | ( | ) | [virtual] |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false).
virtual void Kitware.VTK.vtkQuadricLODActor.DeferLODConstructionOn | ( | ) | [virtual] |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false).
override void Kitware.VTK.vtkQuadricLODActor.Dispose | ( | bool | disposing | ) | [protected] |
Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.
Reimplemented from Kitware.VTK.vtkActor.
virtual vtkCamera Kitware.VTK.vtkQuadricLODActor.GetCamera | ( | ) | [virtual] |
Set/Get the camera to follow. This method is only applicable when the prop type is set to a vtkFollower.
virtual double Kitware.VTK.vtkQuadricLODActor.GetCollapseDimensionRatio | ( | ) | [virtual] |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05.
virtual double Kitware.VTK.vtkQuadricLODActor.GetCollapseDimensionRatioMaxValue | ( | ) | [virtual] |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05.
virtual double Kitware.VTK.vtkQuadricLODActor.GetCollapseDimensionRatioMinValue | ( | ) | [virtual] |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05.
virtual int Kitware.VTK.vtkQuadricLODActor.GetDataConfiguration | ( | ) | [virtual] |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
virtual int Kitware.VTK.vtkQuadricLODActor.GetDataConfigurationMaxValue | ( | ) | [virtual] |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
virtual int Kitware.VTK.vtkQuadricLODActor.GetDataConfigurationMinValue | ( | ) | [virtual] |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
virtual int Kitware.VTK.vtkQuadricLODActor.GetDeferLODConstruction | ( | ) | [virtual] |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false).
virtual vtkQuadricClustering Kitware.VTK.vtkQuadricLODActor.GetLODFilter | ( | ) | [virtual] |
This class will create a vtkQuadricClustering algorithm automatically. However, if you would like to specify the filter to use, or to access it and configure it, these method provide access to the filter.
virtual int Kitware.VTK.vtkQuadricLODActor.GetMaximumDisplayListSize | ( | ) | [virtual] |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData.
virtual int Kitware.VTK.vtkQuadricLODActor.GetMaximumDisplayListSizeMaxValue | ( | ) | [virtual] |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData.
virtual int Kitware.VTK.vtkQuadricLODActor.GetMaximumDisplayListSizeMinValue | ( | ) | [virtual] |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData.
virtual int Kitware.VTK.vtkQuadricLODActor.GetPropType | ( | ) | [virtual] |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor.
virtual int Kitware.VTK.vtkQuadricLODActor.GetPropTypeMaxValue | ( | ) | [virtual] |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor.
virtual int Kitware.VTK.vtkQuadricLODActor.GetPropTypeMinValue | ( | ) | [virtual] |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor.
virtual int Kitware.VTK.vtkQuadricLODActor.GetStatic | ( | ) | [virtual] |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing.
override int Kitware.VTK.vtkQuadricLODActor.IsA | ( | string | type | ) | [virtual] |
Standard class methods.
Reimplemented from Kitware.VTK.vtkActor.
static new int Kitware.VTK.vtkQuadricLODActor.IsTypeOf | ( | string | type | ) | [static] |
Standard class methods.
Reimplemented from Kitware.VTK.vtkActor.
static new vtkQuadricLODActor Kitware.VTK.vtkQuadricLODActor.New | ( | ) | [static] |
Creates a vtkQuadricLODActor.
Reimplemented from Kitware.VTK.vtkActor.
Standard class methods.
Reimplemented from Kitware.VTK.vtkActor.
override void Kitware.VTK.vtkQuadricLODActor.ReleaseGraphicsResources | ( | vtkWindow | arg0 | ) | [virtual] |
Release any graphics resources that are being consumed by this actor. The parameter window could be used to determine which graphic resources to release.
Reimplemented from Kitware.VTK.vtkActor.
override void Kitware.VTK.vtkQuadricLODActor.Render | ( | vtkRenderer | arg0, |
vtkMapper | arg1 | ||
) | [virtual] |
This causes the actor to be rendered. Depending on the frame rate request, it will use either a full resolution render or an interactive render (i.e., it will use the decimated geometry).
Reimplemented from Kitware.VTK.vtkActor.
override int Kitware.VTK.vtkQuadricLODActor.RenderOpaqueGeometry | ( | vtkViewport | viewport | ) | [virtual] |
This method is used internally by the rendering process. We overide the superclass method to properly set the estimated render time.
Reimplemented from Kitware.VTK.vtkActor.
static new vtkQuadricLODActor Kitware.VTK.vtkQuadricLODActor.SafeDownCast | ( | vtkObjectBase | o | ) | [static] |
Standard class methods.
Reimplemented from Kitware.VTK.vtkActor.
void Kitware.VTK.vtkQuadricLODActor.SetCamera | ( | vtkCamera | arg0 | ) |
Set/Get the camera to follow. This method is only applicable when the prop type is set to a vtkFollower.
virtual void Kitware.VTK.vtkQuadricLODActor.SetCollapseDimensionRatio | ( | double | _arg | ) | [virtual] |
If the data configuration is set to UNKNOWN, this class attempts to figure out the dimensionality of the data using CollapseDimensionRatio. This ivar is the ratio of short edge of the input bounding box to its long edge, which is then used to collapse the data dimension (and set the quadric bin size in that direction to one). By default, this value is 0.05.
virtual void Kitware.VTK.vtkQuadricLODActor.SetDataConfiguration | ( | int | _arg | ) | [virtual] |
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
BTX enum DataConfigurationEnum { UNKNOWN=0, XLINE,YLINE,ZLINE, XYPLANE,XZPLANE,YZPLANE, XYZVOLUME }; ETX Force the binning of the quadric clustering according to application knowledge relative to the dimension of the data. For example, if you know your data lies in a 2D x-y plane, the performance of the quadric clustering algorithm can be greatly improved by indicating this (i.e., the number of resulting triangles, and the quality of the decimation version is better). Setting this parameter forces the binning to be configured consistent with the dimnesionality of the data, and the collapse dimension ratio is ignored. Specifying the value of DataConfiguration to UNKNOWN (the default value) means that the class will attempt to figure the dimension of the class automatically using the CollapseDimensionRatio ivar.
virtual void Kitware.VTK.vtkQuadricLODActor.SetDeferLODConstruction | ( | int | _arg | ) | [virtual] |
Specify whether to build the LOD immediately (i.e., on the first render) or to wait until the LOD is requested in a subsequent render. By default, LOD construction is not deferred (DeferLODConstruction is false).
void Kitware.VTK.vtkQuadricLODActor.SetLODFilter | ( | vtkQuadricClustering | lodFilter | ) |
This class will create a vtkQuadricClustering algorithm automatically. However, if you would like to specify the filter to use, or to access it and configure it, these method provide access to the filter.
virtual void Kitware.VTK.vtkQuadricLODActor.SetMaximumDisplayListSize | ( | int | _arg | ) | [virtual] |
Specify the maximum display list size. This variable is used to determine whether to use display lists (ImmediateModeRenderingOff) or not. Controlling display list size is important to prevent program crashes (i.e., overly large display lists on some graphics hardware will cause faults). The display list size is the length of the vtkCellArray representing the topology of the input vtkPolyData.
virtual void Kitware.VTK.vtkQuadricLODActor.SetPropType | ( | int | _arg | ) | [virtual] |
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor.
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor.
BTX enum PropTypeEnum { FOLLOWER=0, ACTOR }; ETX Indicate that this actor is actually a follower. By default, the prop type is a vtkActor.
virtual void Kitware.VTK.vtkQuadricLODActor.SetStatic | ( | int | _arg | ) | [virtual] |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing.
override void Kitware.VTK.vtkQuadricLODActor.ShallowCopy | ( | vtkProp | prop | ) | [virtual] |
Shallow copy of an LOD actor. Overloads the virtual vtkProp method.
Reimplemented from Kitware.VTK.vtkActor.
virtual void Kitware.VTK.vtkQuadricLODActor.StaticOff | ( | ) | [virtual] |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing.
virtual void Kitware.VTK.vtkQuadricLODActor.StaticOn | ( | ) | [virtual] |
Turn on/off a flag to control whether the underlying pipeline is static. If static, this means that the data pipeline executes once and then not again until the user manually modifies this class. By default, Static is off because trying to debug this is tricky, and you should only use it when you know what you are doing.
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_DeferLODConstructionOff_01 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_DeferLODConstructionOn_02 | ( | HandleRef | pThis | ) | [private] |
static internal IntPtr Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetCamera_03 | ( | HandleRef | pThis, |
ref uint | mteStatus, | ||
ref uint | mteIndex, | ||
ref uint | rawRefCount | ||
) | [private] |
static internal double Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetCollapseDimensionRatio_04 | ( | HandleRef | pThis | ) | [private] |
static internal double Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetCollapseDimensionRatioMaxValue_05 | ( | HandleRef | pThis | ) | [private] |
static internal double Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetCollapseDimensionRatioMinValue_06 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetDataConfiguration_07 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetDataConfigurationMaxValue_08 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetDataConfigurationMinValue_09 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetDeferLODConstruction_10 | ( | HandleRef | pThis | ) | [private] |
static internal IntPtr Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetLODFilter_11 | ( | HandleRef | pThis, |
ref uint | mteStatus, | ||
ref uint | mteIndex, | ||
ref uint | rawRefCount | ||
) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetMaximumDisplayListSize_12 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetMaximumDisplayListSizeMaxValue_13 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetMaximumDisplayListSizeMinValue_14 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetPropType_15 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetPropTypeMaxValue_16 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetPropTypeMinValue_17 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_GetStatic_18 | ( | HandleRef | pThis | ) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_IsA_19 | ( | HandleRef | pThis, |
string | type | ||
) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_IsTypeOf_20 | ( | string | type | ) | [private] |
static internal IntPtr Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_New | ( | ref uint | mteStatus, |
ref uint | mteIndex, | ||
ref uint | rawRefCount | ||
) | [private] |
static internal IntPtr Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_NewInstance_22 | ( | HandleRef | pThis, |
ref uint | mteStatus, | ||
ref uint | mteIndex, | ||
ref uint | rawRefCount | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_ReleaseGraphicsResources_23 | ( | HandleRef | pThis, |
HandleRef | arg0 | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_Render_24 | ( | HandleRef | pThis, |
HandleRef | arg0, | ||
HandleRef | arg1 | ||
) | [private] |
static internal int Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_RenderOpaqueGeometry_25 | ( | HandleRef | pThis, |
HandleRef | viewport | ||
) | [private] |
static internal IntPtr Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SafeDownCast_26 | ( | HandleRef | o, |
ref uint | mteStatus, | ||
ref uint | mteIndex, | ||
ref uint | rawRefCount | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetCamera_27 | ( | HandleRef | pThis, |
HandleRef | arg0 | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetCollapseDimensionRatio_28 | ( | HandleRef | pThis, |
double | _arg | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfiguration_29 | ( | HandleRef | pThis, |
int | _arg | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToUnknown_30 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToXLine_31 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToXYPlane_32 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToXYZVolume_33 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToXZPlane_34 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToYLine_35 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToYZPlane_36 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDataConfigurationToZLine_37 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetDeferLODConstruction_38 | ( | HandleRef | pThis, |
int | _arg | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetLODFilter_39 | ( | HandleRef | pThis, |
HandleRef | lodFilter | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetMaximumDisplayListSize_40 | ( | HandleRef | pThis, |
int | _arg | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetPropType_41 | ( | HandleRef | pThis, |
int | _arg | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetPropTypeToActor_42 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetPropTypeToFollower_43 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_SetStatic_44 | ( | HandleRef | pThis, |
int | _arg | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_ShallowCopy_45 | ( | HandleRef | pThis, |
HandleRef | prop | ||
) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_StaticOff_46 | ( | HandleRef | pThis | ) | [private] |
static internal void Kitware.VTK.vtkQuadricLODActor.vtkQuadricLODActor_StaticOn_47 | ( | HandleRef | pThis | ) | [private] |
new readonly string Kitware.VTK.vtkQuadricLODActor.MRClassNameKey = "18vtkQuadricLODActor" [static] |
Automatically generated type registration mechanics.
Reimplemented from Kitware.VTK.vtkActor.
new const string Kitware.VTK.vtkQuadricLODActor.MRFullTypeName = "Kitware.VTK.vtkQuadricLODActor" |
Automatically generated type registration mechanics.
Reimplemented from Kitware.VTK.vtkActor.