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Kitware.VTK.vtkDataArray Class Reference

vtkDataArray - abstract superclass for arrays of numeric data More...

Inheritance diagram for Kitware.VTK.vtkDataArray:
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Collaboration diagram for Kitware.VTK.vtkDataArray:
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List of all members.

Public Member Functions

 vtkDataArray (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
virtual void CopyComponent (int j, vtkDataArray from, int fromComponent)
 Copy a component from one data array into a component on this data array. This method copies the specified component ("fromComponent") from the specified data array ("from") to the specified component ("j") over all the tuples in this data array. This method can be used to extract a component (column) from one data array and paste that data into a component on this data array.
override int CopyInformation (vtkInformation infoFrom, int deep)
 Copy information instance. Arrays use information objects in a variety of ways. It is important to have flexibility in this regard because certain keys should not be coppied, while others must be. NOTE: Up to the implmeneter to make sure that keys not inteneded to be coppied are excluded here.
void CreateDefaultLookupTable ()
 Create default lookup table. Generally used to create one when none is available.
override void DeepCopy (vtkAbstractArray aa)
 Deep copy of data. Copies data from different data arrays even if they are different types (using doubleing-point exchange).
virtual void DeepCopy (vtkDataArray da)
 Deep copy of data. Copies data from different data arrays even if they are different types (using doubleing-point exchange).
virtual void FillComponent (int j, double c)
 Fill a component of a data array with a specified value. This method sets the specified component to specified value for all tuples in the data array. This methods can be used to initialize or reinitialize a single component of a multi-component array.
override uint GetActualMemorySize ()
 Return the memory in kilobytes consumed by this data array. Used to support streaming and reading/writing data. The value returned is guaranteed to be greater than or equal to the memory required to actually represent the data represented by this object. The information returned is valid only after the pipeline has been updated.
virtual double GetComponent (int i, int j)
 Return the data component at the ith tuple and jth component location. Note that i is less than NumberOfTuples and j is less than NumberOfComponents.
virtual void GetData (int tupleMin, int tupleMax, int compMin, int compMax, vtkDoubleArray data)
 Get the data as a double array in the range (tupleMin,tupleMax) and (compMin, compMax). The resulting double array consists of all data in the tuple range specified and only the component range specified. This process typically requires casting the data from native form into doubleing point values. This method is provided as a convenience for data exchange, and is not very fast.
double GetDataTypeMax ()
 These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).
double GetDataTypeMin ()
 These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).
void GetDataTypeRange (IntPtr range)
 These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).
override int GetElementComponentSize ()
 Return the size, in bytes, of the lowest-level element of an array. For vtkDataArray and subclasses this is the size of the data type.
virtual vtkLookupTable GetLookupTable ()
 Set/get the lookup table associated with this scalar data, if any.
virtual double GetMaxNorm ()
 Return the maximum norm for the tuples. Note that the max. is computed everytime GetMaxNorm is called.
void GetRange (IntPtr range, int comp)
 Return the range of the array values for the given component. Range is copied into the array provided. If comp is equal to -1, it returns the range of the magnitude (if the number of components is equal to 1 it still returns the range of component 0).
double[] GetRange (int comp)
 Return the range of the array values for the given component. Range is copied into the array provided. If comp is equal to -1, it returns the range of the magnitude (if the number of components is equal to 1 it still returns the range of component 0).
double[] GetRange ()
 Return the range of the array values for the 0th component. Range is copied into the array provided.
void GetRange (IntPtr range)
 Return the range of the array values for the 0th component. Range is copied into the array provided.
virtual IntPtr GetTuple (int i)
 Get the data tuple at ith location. Return it as a pointer to an array. Note: this method is not thread-safe, and the pointer is only valid as long as another method invocation to a vtk object is not performed.
virtual void GetTuple (int i, IntPtr tuple)
 Get the data tuple at ith location by filling in a user-provided array, Make sure that your array is large enough to hold the NumberOfComponents amount of data being returned.
double GetTuple1 (int i)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
double[] GetTuple2 (int i)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
double[] GetTuple3 (int i)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
double[] GetTuple4 (int i)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
double[] GetTuple9 (int i)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
override void GetTuples (vtkIdList ptIds, vtkAbstractArray output)
 Given a list of point ids, return an array of tuples. You must insure that the output array has been previously allocated with enough space to hold the data.
override void GetTuples (int p1, int p2, vtkAbstractArray output)
 Get the tuples for the range of points ids specified (i.e., p1->p2 inclusive). You must insure that the output array has been previously allocated with enough space to hold the data.
virtual void InsertComponent (int i, int j, double c)
 Insert the data component at ith tuple and jth component location. Note that memory allocation is performed as necessary to hold the data.
override int InsertNextTuple (int j, vtkAbstractArray source)
 Insert the jth tuple in the source array, at the end in this array. Note that memory allocation is performed as necessary to hold the data. Returns the location at which the data was inserted. This pure virtual function is redeclared here to avoid declaration hidden warnings.
virtual int InsertNextTuple (IntPtr tuple)
 Insert the data tuple at the end of the array and return the location at which the data was inserted. Memory is allocated as necessary to hold the data.
void InsertNextTuple1 (double value)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertNextTuple2 (double val0, double val1)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertNextTuple3 (double val0, double val1, double val2)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertNextTuple4 (double val0, double val1, double val2, double val3)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertNextTuple9 (double val0, double val1, double val2, double val3, double val4, double val5, double val6, double val7, double val8)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
override void InsertTuple (int i, int j, vtkAbstractArray source)
 Insert the jth tuple in the source array, at ith location in this array. Note that memory allocation is performed as necessary to hold the data. This pure virtual function is redeclared here to avoid declaration hidden warnings.
virtual void InsertTuple (int i, IntPtr tuple)
 Insert the data tuple at ith location. Note that memory allocation is performed as necessary to hold the data.
void InsertTuple1 (int i, double value)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertTuple2 (int i, double val0, double val1)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertTuple3 (int i, double val0, double val1, double val2)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertTuple4 (int i, double val0, double val1, double val2, double val3)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
void InsertTuple9 (int i, double val0, double val1, double val2, double val3, double val4, double val5, double val6, double val7, double val8)
 These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.
override void InterpolateTuple (int i, vtkIdList ptIndices, vtkAbstractArray source, IntPtr weights)
 Set the ith tuple in this array as the interpolated tuple value, given the ptIndices in the source array and associated interpolation weights. This method assumes that the two arrays are of the same type and strcuture.
override void InterpolateTuple (int i, int id1, vtkAbstractArray source1, int id2, vtkAbstractArray source2, double t)
 Description Insert the ith tuple in this array as interpolated from the two values, p1 and p2, and an interpolation factor, t. The interpolation factor ranges from (0,1), with t=0 located at p1. This method assumes that the three arrays are of the same type. p1 is value at index id1 in source1, while, p2 is value at index id2 in source2.
override int IsA (string type)
 Undocumented Block.
override int IsNumeric ()
 This method is here to make backward compatibility easier. It must return true if and only if an array contains numeric data. All vtkDataArray subclasses contain numeric data, hence this method always returns 1(true).
new vtkDataArray NewInstance ()
 Undocumented Block.
virtual void RemoveFirstTuple ()
 These methods remove tuples from the data array. They shift data and resize array, so the data array is still valid after this operation. Note, this operation is fairly slow.
virtual void RemoveLastTuple ()
 These methods remove tuples from the data array. They shift data and resize array, so the data array is still valid after this operation. Note, this operation is fairly slow.
virtual void RemoveTuple (int id)
 These methods remove tuples from the data array. They shift data and resize array, so the data array is still valid after this operation. Note, this operation is fairly slow.
virtual void SetComponent (int i, int j, double c)
 Set the data component at the ith tuple and jth component location. Note that i is less than NumberOfTuples and j is less than NumberOfComponents. Make sure enough memory has been allocated (use SetNumberOfTuples() and SetNumberOfComponents()).
void SetLookupTable (vtkLookupTable lut)
 Set/get the lookup table associated with this scalar data, if any.
override void SetTuple (int i, int j, vtkAbstractArray source)
 Set the tuple at the ith location using the jth tuple in the source array. This method assumes that the two arrays have the same type and structure. Note that range checking and memory allocation is not performed; use in conjunction with SetNumberOfTuples() to allocate space.
virtual void SetTuple (int i, IntPtr tuple)
 Set the data tuple at ith location. Note that range checking or memory allocation is not performed; use this method in conjunction with SetNumberOfTuples() to allocate space.
void SetTuple1 (int i, double value)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
void SetTuple2 (int i, double val0, double val1)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
void SetTuple3 (int i, double val0, double val1, double val2)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
void SetTuple4 (int i, double val0, double val1, double val2, double val3)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
void SetTuple9 (int i, double val0, double val1, double val2, double val3, double val4, double val5, double val6, double val7, double val8)
 These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.
virtual IntPtr WriteVoidPointer (int id, int number)
 Get the address of a particular data index. Make sure data is allocated for the number of items requested. Set MaxId according to the number of data values requested.

Static Public Member Functions

static
vtkInformationDoubleVectorKey 
COMPONENT_RANGE ()
 This key is used to hold tight bounds on the range of one component over all tuples of the array. Two values (a minimum and maximum) are stored for each component. When GetRange() is called when no tuples are present in the array this value is set to { VTK_DOUBLE_MAX, VTK_DOUBLE_MIN }.
static vtkDataArray CreateDataArray (int dataType)
 Creates an array for dataType where dataType is one of VTK_BIT, VTK_CHAR, VTK_SIGNED_CHAR, VTK_UNSIGNED_CHAR, VTK_SHORT, VTK_UNSIGNED_SHORT, VTK_INT, VTK_UNSIGNED_INT, VTK_LONG, VTK_UNSIGNED_LONG, VTK_DOUBLE, VTK_DOUBLE, VTK_ID_TYPE. Note that the data array returned has be deleted by the user.
static double GetDataTypeMax (int type)
 These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).
static double GetDataTypeMin (int type)
 These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).
static void GetDataTypeRange (int type, IntPtr range)
 These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).
static new int IsTypeOf (string type)
 Undocumented Block.
static
vtkInformationDoubleVectorKey 
L2_NORM_RANGE ()
 This key is used to hold tight bounds on the $L_2$ norm of tuples in the array. Two values (a minimum and maximum) are stored for each component. When GetRange() is called when no tuples are present in the array this value is set to { VTK_DOUBLE_MAX, VTK_DOUBLE_MIN }.
static
vtkInformationInformationVectorKey 
PER_COMPONENT ()
 This key is used to hold a vector of COMPONENT_RANGE keys -- one for each component of the array. You may add additional per-component key-value pairs to information objects in this vector. However if you do so, you must be sure to either (1) set COMPONENT_RANGE to { VTK_DOUBLE_MAX, VTK_DOUBLE_MIN } or (2) call ComputeRange( component ) <b>before</b> modifying the information object. Otherwise it is possible for modifications to the array to take place without the bounds on the component being updated since the modification time of the vtkInformation object is used to determine when the COMPONENT_RANGE values are out of date.
static new vtkDataArray SafeDownCast (vtkObjectBase o)
 Undocumented Block.

Public Attributes

new const string MRFullTypeName = "Kitware.VTK.vtkDataArray"
 Automatically generated type registration mechanics.

Static Public Attributes

static new readonly string MRClassNameKey = "12vtkDataArray"
 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 vtkDataArray_COMPONENT_RANGE_01 (ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkDataArray_CopyComponent_02 (HandleRef pThis, int j, HandleRef from, int fromComponent)
static internal int vtkDataArray_CopyInformation_03 (HandleRef pThis, HandleRef infoFrom, int deep)
static internal IntPtr vtkDataArray_CreateDataArray_04 (int dataType, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkDataArray_CreateDefaultLookupTable_05 (HandleRef pThis)
static internal void vtkDataArray_DeepCopy_06 (HandleRef pThis, HandleRef aa)
static internal void vtkDataArray_DeepCopy_07 (HandleRef pThis, HandleRef da)
static internal void vtkDataArray_FillComponent_08 (HandleRef pThis, int j, double c)
static internal uint vtkDataArray_GetActualMemorySize_09 (HandleRef pThis)
static internal double vtkDataArray_GetComponent_10 (HandleRef pThis, int i, int j)
static internal void vtkDataArray_GetData_11 (HandleRef pThis, int tupleMin, int tupleMax, int compMin, int compMax, HandleRef data)
static internal double vtkDataArray_GetDataTypeMax_12 (HandleRef pThis)
static internal double vtkDataArray_GetDataTypeMax_13 (int type)
static internal double vtkDataArray_GetDataTypeMin_14 (HandleRef pThis)
static internal double vtkDataArray_GetDataTypeMin_15 (int type)
static internal void vtkDataArray_GetDataTypeRange_16 (HandleRef pThis, IntPtr range)
static internal void vtkDataArray_GetDataTypeRange_17 (int type, IntPtr range)
static internal int vtkDataArray_GetElementComponentSize_18 (HandleRef pThis)
static internal IntPtr vtkDataArray_GetLookupTable_19 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal double vtkDataArray_GetMaxNorm_20 (HandleRef pThis)
static internal void vtkDataArray_GetRange_21 (HandleRef pThis, IntPtr range, int comp)
static internal IntPtr vtkDataArray_GetRange_22 (HandleRef pThis, int comp)
static internal IntPtr vtkDataArray_GetRange_23 (HandleRef pThis)
static internal void vtkDataArray_GetRange_24 (HandleRef pThis, IntPtr range)
static internal IntPtr vtkDataArray_GetTuple_25 (HandleRef pThis, int i)
static internal void vtkDataArray_GetTuple_26 (HandleRef pThis, int i, IntPtr tuple)
static internal double vtkDataArray_GetTuple1_27 (HandleRef pThis, int i)
static internal IntPtr vtkDataArray_GetTuple2_28 (HandleRef pThis, int i)
static internal IntPtr vtkDataArray_GetTuple3_29 (HandleRef pThis, int i)
static internal IntPtr vtkDataArray_GetTuple4_30 (HandleRef pThis, int i)
static internal IntPtr vtkDataArray_GetTuple9_31 (HandleRef pThis, int i)
static internal void vtkDataArray_GetTuples_32 (HandleRef pThis, HandleRef ptIds, HandleRef output)
static internal void vtkDataArray_GetTuples_33 (HandleRef pThis, int p1, int p2, HandleRef output)
static internal void vtkDataArray_InsertComponent_34 (HandleRef pThis, int i, int j, double c)
static internal int vtkDataArray_InsertNextTuple_35 (HandleRef pThis, int j, HandleRef source)
static internal int vtkDataArray_InsertNextTuple_36 (HandleRef pThis, IntPtr tuple)
static internal void vtkDataArray_InsertNextTuple1_37 (HandleRef pThis, double value)
static internal void vtkDataArray_InsertNextTuple2_38 (HandleRef pThis, double val0, double val1)
static internal void vtkDataArray_InsertNextTuple3_39 (HandleRef pThis, double val0, double val1, double val2)
static internal void vtkDataArray_InsertNextTuple4_40 (HandleRef pThis, double val0, double val1, double val2, double val3)
static internal void vtkDataArray_InsertNextTuple9_41 (HandleRef pThis, double val0, double val1, double val2, double val3, double val4, double val5, double val6, double val7, double val8)
static internal void vtkDataArray_InsertTuple_42 (HandleRef pThis, int i, int j, HandleRef source)
static internal void vtkDataArray_InsertTuple_43 (HandleRef pThis, int i, IntPtr tuple)
static internal void vtkDataArray_InsertTuple1_44 (HandleRef pThis, int i, double value)
static internal void vtkDataArray_InsertTuple2_45 (HandleRef pThis, int i, double val0, double val1)
static internal void vtkDataArray_InsertTuple3_46 (HandleRef pThis, int i, double val0, double val1, double val2)
static internal void vtkDataArray_InsertTuple4_47 (HandleRef pThis, int i, double val0, double val1, double val2, double val3)
static internal void vtkDataArray_InsertTuple9_48 (HandleRef pThis, int i, double val0, double val1, double val2, double val3, double val4, double val5, double val6, double val7, double val8)
static internal void vtkDataArray_InterpolateTuple_49 (HandleRef pThis, int i, HandleRef ptIndices, HandleRef source, IntPtr weights)
static internal void vtkDataArray_InterpolateTuple_50 (HandleRef pThis, int i, int id1, HandleRef source1, int id2, HandleRef source2, double t)
static internal int vtkDataArray_IsA_51 (HandleRef pThis, string type)
static internal int vtkDataArray_IsNumeric_52 (HandleRef pThis)
static internal int vtkDataArray_IsTypeOf_53 (string type)
static internal IntPtr vtkDataArray_L2_NORM_RANGE_54 (ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkDataArray_NewInstance_55 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkDataArray_PER_COMPONENT_56 (ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkDataArray_RemoveFirstTuple_57 (HandleRef pThis)
static internal void vtkDataArray_RemoveLastTuple_58 (HandleRef pThis)
static internal void vtkDataArray_RemoveTuple_59 (HandleRef pThis, int id)
static internal IntPtr vtkDataArray_SafeDownCast_60 (HandleRef o, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkDataArray_SetComponent_61 (HandleRef pThis, int i, int j, double c)
static internal void vtkDataArray_SetLookupTable_62 (HandleRef pThis, HandleRef lut)
static internal void vtkDataArray_SetTuple_63 (HandleRef pThis, int i, int j, HandleRef source)
static internal void vtkDataArray_SetTuple_64 (HandleRef pThis, int i, IntPtr tuple)
static internal void vtkDataArray_SetTuple1_65 (HandleRef pThis, int i, double value)
static internal void vtkDataArray_SetTuple2_66 (HandleRef pThis, int i, double val0, double val1)
static internal void vtkDataArray_SetTuple3_67 (HandleRef pThis, int i, double val0, double val1, double val2)
static internal void vtkDataArray_SetTuple4_68 (HandleRef pThis, int i, double val0, double val1, double val2, double val3)
static internal void vtkDataArray_SetTuple9_69 (HandleRef pThis, int i, double val0, double val1, double val2, double val3, double val4, double val5, double val6, double val7, double val8)
static internal IntPtr vtkDataArray_WriteVoidPointer_70 (HandleRef pThis, int id, int number)

Static Private Member Functions

static vtkDataArray ()
 Automatically generated type registration mechanics.

Detailed Description

vtkDataArray - abstract superclass for arrays of numeric data

Description

vtkDataArray is an abstract superclass for data array objects containing numeric data. It extends the API defined in vtkAbstractArray. vtkDataArray is an abstract superclass for data array objects. This class defines an API that all array objects must support. Note that the concrete subclasses of this class represent data in native form (char, int, etc.) and often have specialized more efficient methods for operating on this data (for example, getting pointers to data or getting/inserting data in native form). Subclasses of vtkDataArray are assumed to contain data whose components are meaningful when cast to and from double.

vtkBitArray vtkCharArray vtkUnsignedCharArray vtkShortArray vtkUnsignedShortArray vtkIntArray vtkUnsignedIntArray vtkLongArray vtkUnsignedLongArray vtkDoubleArray vtkDoubleArray


Constructor & Destructor Documentation

static Kitware.VTK.vtkDataArray.vtkDataArray ( ) [static, private]

Automatically generated type registration mechanics.

Kitware.VTK.vtkDataArray.vtkDataArray ( IntPtr  rawCppThis,
bool  callDisposalMethod,
bool  strong 
)

Automatically generated constructor - called from generated code. DO NOT call directly.


Member Function Documentation

This key is used to hold tight bounds on the range of one component over all tuples of the array. Two values (a minimum and maximum) are stored for each component. When GetRange() is called when no tuples are present in the array this value is set to { VTK_DOUBLE_MAX, VTK_DOUBLE_MIN }.

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virtual void Kitware.VTK.vtkDataArray.CopyComponent ( int  j,
vtkDataArray  from,
int  fromComponent 
) [virtual]

Copy a component from one data array into a component on this data array. This method copies the specified component ("fromComponent") from the specified data array ("from") to the specified component ("j") over all the tuples in this data array. This method can be used to extract a component (column) from one data array and paste that data into a component on this data array.

override int Kitware.VTK.vtkDataArray.CopyInformation ( vtkInformation  infoFrom,
int  deep 
) [virtual]

Copy information instance. Arrays use information objects in a variety of ways. It is important to have flexibility in this regard because certain keys should not be coppied, while others must be. NOTE: Up to the implmeneter to make sure that keys not inteneded to be coppied are excluded here.

Reimplemented from Kitware.VTK.vtkAbstractArray.

static vtkDataArray Kitware.VTK.vtkDataArray.CreateDataArray ( int  dataType) [static]

Creates an array for dataType where dataType is one of VTK_BIT, VTK_CHAR, VTK_SIGNED_CHAR, VTK_UNSIGNED_CHAR, VTK_SHORT, VTK_UNSIGNED_SHORT, VTK_INT, VTK_UNSIGNED_INT, VTK_LONG, VTK_UNSIGNED_LONG, VTK_DOUBLE, VTK_DOUBLE, VTK_ID_TYPE. Note that the data array returned has be deleted by the user.

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Create default lookup table. Generally used to create one when none is available.

override void Kitware.VTK.vtkDataArray.DeepCopy ( vtkAbstractArray  aa) [virtual]

Deep copy of data. Copies data from different data arrays even if they are different types (using doubleing-point exchange).

Reimplemented from Kitware.VTK.vtkAbstractArray.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual void Kitware.VTK.vtkDataArray.DeepCopy ( vtkDataArray  da) [virtual]

Deep copy of data. Copies data from different data arrays even if they are different types (using doubleing-point exchange).

Reimplemented in Kitware.VTK.vtkBitArray.

override void Kitware.VTK.vtkDataArray.Dispose ( bool  disposing) [protected]
virtual void Kitware.VTK.vtkDataArray.FillComponent ( int  j,
double  c 
) [virtual]

Fill a component of a data array with a specified value. This method sets the specified component to specified value for all tuples in the data array. This methods can be used to initialize or reinitialize a single component of a multi-component array.

override uint Kitware.VTK.vtkDataArray.GetActualMemorySize ( ) [virtual]

Return the memory in kilobytes consumed by this data array. Used to support streaming and reading/writing data. The value returned is guaranteed to be greater than or equal to the memory required to actually represent the data represented by this object. The information returned is valid only after the pipeline has been updated.

Reimplemented from Kitware.VTK.vtkAbstractArray.

virtual double Kitware.VTK.vtkDataArray.GetComponent ( int  i,
int  j 
) [virtual]

Return the data component at the ith tuple and jth component location. Note that i is less than NumberOfTuples and j is less than NumberOfComponents.

virtual void Kitware.VTK.vtkDataArray.GetData ( int  tupleMin,
int  tupleMax,
int  compMin,
int  compMax,
vtkDoubleArray  data 
) [virtual]

Get the data as a double array in the range (tupleMin,tupleMax) and (compMin, compMax). The resulting double array consists of all data in the tuple range specified and only the component range specified. This process typically requires casting the data from native form into doubleing point values. This method is provided as a convenience for data exchange, and is not very fast.

These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).

static double Kitware.VTK.vtkDataArray.GetDataTypeMax ( int  type) [static]

These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).

These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).

static double Kitware.VTK.vtkDataArray.GetDataTypeMin ( int  type) [static]

These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).

These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).

static void Kitware.VTK.vtkDataArray.GetDataTypeRange ( int  type,
IntPtr  range 
) [static]

These methods return the Min and Max possible range of the native data type. For example if a vtkScalars consists of unsigned char data these will return (0,255).

Return the size, in bytes, of the lowest-level element of an array. For vtkDataArray and subclasses this is the size of the data type.

Reimplemented from Kitware.VTK.vtkAbstractArray.

Set/get the lookup table associated with this scalar data, if any.

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virtual double Kitware.VTK.vtkDataArray.GetMaxNorm ( ) [virtual]

Return the maximum norm for the tuples. Note that the max. is computed everytime GetMaxNorm is called.

void Kitware.VTK.vtkDataArray.GetRange ( IntPtr  range,
int  comp 
)

Return the range of the array values for the given component. Range is copied into the array provided. If comp is equal to -1, it returns the range of the magnitude (if the number of components is equal to 1 it still returns the range of component 0).

double [] Kitware.VTK.vtkDataArray.GetRange ( int  comp)

Return the range of the array values for the given component. Range is copied into the array provided. If comp is equal to -1, it returns the range of the magnitude (if the number of components is equal to 1 it still returns the range of component 0).

Return the range of the array values for the 0th component. Range is copied into the array provided.

void Kitware.VTK.vtkDataArray.GetRange ( IntPtr  range)

Return the range of the array values for the 0th component. Range is copied into the array provided.

virtual IntPtr Kitware.VTK.vtkDataArray.GetTuple ( int  i) [virtual]

Get the data tuple at ith location. Return it as a pointer to an array. Note: this method is not thread-safe, and the pointer is only valid as long as another method invocation to a vtk object is not performed.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual void Kitware.VTK.vtkDataArray.GetTuple ( int  i,
IntPtr  tuple 
) [virtual]

Get the data tuple at ith location by filling in a user-provided array, Make sure that your array is large enough to hold the NumberOfComponents amount of data being returned.

Reimplemented in Kitware.VTK.vtkBitArray.

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

double [] Kitware.VTK.vtkDataArray.GetTuple2 ( int  i)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

double [] Kitware.VTK.vtkDataArray.GetTuple3 ( int  i)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

double [] Kitware.VTK.vtkDataArray.GetTuple4 ( int  i)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

double [] Kitware.VTK.vtkDataArray.GetTuple9 ( int  i)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

override void Kitware.VTK.vtkDataArray.GetTuples ( vtkIdList  ptIds,
vtkAbstractArray  output 
) [virtual]

Given a list of point ids, return an array of tuples. You must insure that the output array has been previously allocated with enough space to hold the data.

Reimplemented from Kitware.VTK.vtkAbstractArray.

override void Kitware.VTK.vtkDataArray.GetTuples ( int  p1,
int  p2,
vtkAbstractArray  output 
) [virtual]

Get the tuples for the range of points ids specified (i.e., p1->p2 inclusive). You must insure that the output array has been previously allocated with enough space to hold the data.

Reimplemented from Kitware.VTK.vtkAbstractArray.

virtual void Kitware.VTK.vtkDataArray.InsertComponent ( int  i,
int  j,
double  c 
) [virtual]

Insert the data component at ith tuple and jth component location. Note that memory allocation is performed as necessary to hold the data.

Reimplemented in Kitware.VTK.vtkBitArray.

override int Kitware.VTK.vtkDataArray.InsertNextTuple ( int  j,
vtkAbstractArray  source 
) [virtual]

Insert the jth tuple in the source array, at the end in this array. Note that memory allocation is performed as necessary to hold the data. Returns the location at which the data was inserted. This pure virtual function is redeclared here to avoid declaration hidden warnings.

Reimplemented from Kitware.VTK.vtkAbstractArray.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual int Kitware.VTK.vtkDataArray.InsertNextTuple ( IntPtr  tuple) [virtual]

Insert the data tuple at the end of the array and return the location at which the data was inserted. Memory is allocated as necessary to hold the data.

Reimplemented in Kitware.VTK.vtkBitArray.

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertNextTuple2 ( double  val0,
double  val1 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertNextTuple3 ( double  val0,
double  val1,
double  val2 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertNextTuple4 ( double  val0,
double  val1,
double  val2,
double  val3 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertNextTuple9 ( double  val0,
double  val1,
double  val2,
double  val3,
double  val4,
double  val5,
double  val6,
double  val7,
double  val8 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

override void Kitware.VTK.vtkDataArray.InsertTuple ( int  i,
int  j,
vtkAbstractArray  source 
) [virtual]

Insert the jth tuple in the source array, at ith location in this array. Note that memory allocation is performed as necessary to hold the data. This pure virtual function is redeclared here to avoid declaration hidden warnings.

Reimplemented from Kitware.VTK.vtkAbstractArray.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual void Kitware.VTK.vtkDataArray.InsertTuple ( int  i,
IntPtr  tuple 
) [virtual]

Insert the data tuple at ith location. Note that memory allocation is performed as necessary to hold the data.

Reimplemented in Kitware.VTK.vtkBitArray.

void Kitware.VTK.vtkDataArray.InsertTuple1 ( int  i,
double  value 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertTuple2 ( int  i,
double  val0,
double  val1 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertTuple3 ( int  i,
double  val0,
double  val1,
double  val2 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertTuple4 ( int  i,
double  val0,
double  val1,
double  val2,
double  val3 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.InsertTuple9 ( int  i,
double  val0,
double  val1,
double  val2,
double  val3,
double  val4,
double  val5,
double  val6,
double  val7,
double  val8 
)

These methods are included as convenience for the wrappers. InsertTuple() which takes arrays can not be used from wrapped languages. These methods can be used instead.

override void Kitware.VTK.vtkDataArray.InterpolateTuple ( int  i,
vtkIdList  ptIndices,
vtkAbstractArray  source,
IntPtr  weights 
) [virtual]

Set the ith tuple in this array as the interpolated tuple value, given the ptIndices in the source array and associated interpolation weights. This method assumes that the two arrays are of the same type and strcuture.

Reimplemented from Kitware.VTK.vtkAbstractArray.

override void Kitware.VTK.vtkDataArray.InterpolateTuple ( int  i,
int  id1,
vtkAbstractArray  source1,
int  id2,
vtkAbstractArray  source2,
double  t 
) [virtual]

Description Insert the ith tuple in this array as interpolated from the two values, p1 and p2, and an interpolation factor, t. The interpolation factor ranges from (0,1), with t=0 located at p1. This method assumes that the three arrays are of the same type. p1 is value at index id1 in source1, while, p2 is value at index id2 in source2.

Reimplemented from Kitware.VTK.vtkAbstractArray.

override int Kitware.VTK.vtkDataArray.IsA ( string  type) [virtual]
override int Kitware.VTK.vtkDataArray.IsNumeric ( ) [virtual]

This method is here to make backward compatibility easier. It must return true if and only if an array contains numeric data. All vtkDataArray subclasses contain numeric data, hence this method always returns 1(true).

Reimplemented from Kitware.VTK.vtkAbstractArray.

static new int Kitware.VTK.vtkDataArray.IsTypeOf ( string  type) [static]

This key is used to hold tight bounds on the $L_2$ norm of tuples in the array. Two values (a minimum and maximum) are stored for each component. When GetRange() is called when no tuples are present in the array this value is set to { VTK_DOUBLE_MAX, VTK_DOUBLE_MIN }.

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This key is used to hold a vector of COMPONENT_RANGE keys -- one for each component of the array. You may add additional per-component key-value pairs to information objects in this vector. However if you do so, you must be sure to either (1) set COMPONENT_RANGE to { VTK_DOUBLE_MAX, VTK_DOUBLE_MIN } or (2) call ComputeRange( component ) <b>before</b> modifying the information object. Otherwise it is possible for modifications to the array to take place without the bounds on the component being updated since the modification time of the vtkInformation object is used to determine when the COMPONENT_RANGE values are out of date.

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virtual void Kitware.VTK.vtkDataArray.RemoveFirstTuple ( ) [virtual]

These methods remove tuples from the data array. They shift data and resize array, so the data array is still valid after this operation. Note, this operation is fairly slow.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual void Kitware.VTK.vtkDataArray.RemoveLastTuple ( ) [virtual]

These methods remove tuples from the data array. They shift data and resize array, so the data array is still valid after this operation. Note, this operation is fairly slow.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual void Kitware.VTK.vtkDataArray.RemoveTuple ( int  id) [virtual]

These methods remove tuples from the data array. They shift data and resize array, so the data array is still valid after this operation. Note, this operation is fairly slow.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual void Kitware.VTK.vtkDataArray.SetComponent ( int  i,
int  j,
double  c 
) [virtual]

Set the data component at the ith tuple and jth component location. Note that i is less than NumberOfTuples and j is less than NumberOfComponents. Make sure enough memory has been allocated (use SetNumberOfTuples() and SetNumberOfComponents()).

Reimplemented in Kitware.VTK.vtkBitArray.

Set/get the lookup table associated with this scalar data, if any.

override void Kitware.VTK.vtkDataArray.SetTuple ( int  i,
int  j,
vtkAbstractArray  source 
) [virtual]

Set the tuple at the ith location using the jth tuple in the source array. This method assumes that the two arrays have the same type and structure. Note that range checking and memory allocation is not performed; use in conjunction with SetNumberOfTuples() to allocate space.

Reimplemented from Kitware.VTK.vtkAbstractArray.

Reimplemented in Kitware.VTK.vtkBitArray.

virtual void Kitware.VTK.vtkDataArray.SetTuple ( int  i,
IntPtr  tuple 
) [virtual]

Set the data tuple at ith location. Note that range checking or memory allocation is not performed; use this method in conjunction with SetNumberOfTuples() to allocate space.

Reimplemented in Kitware.VTK.vtkBitArray.

void Kitware.VTK.vtkDataArray.SetTuple1 ( int  i,
double  value 
)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.SetTuple2 ( int  i,
double  val0,
double  val1 
)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.SetTuple3 ( int  i,
double  val0,
double  val1,
double  val2 
)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.SetTuple4 ( int  i,
double  val0,
double  val1,
double  val2,
double  val3 
)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

void Kitware.VTK.vtkDataArray.SetTuple9 ( int  i,
double  val0,
double  val1,
double  val2,
double  val3,
double  val4,
double  val5,
double  val6,
double  val7,
double  val8 
)

These methods are included as convenience for the wrappers. GetTuple() and SetTuple() which return/take arrays can not be used from wrapped languages. These methods can be used instead.

static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_COMPONENT_RANGE_01 ( ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_CopyComponent_02 ( HandleRef  pThis,
int  j,
HandleRef  from,
int  fromComponent 
) [private]
static internal int Kitware.VTK.vtkDataArray.vtkDataArray_CopyInformation_03 ( HandleRef  pThis,
HandleRef  infoFrom,
int  deep 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_CreateDataArray_04 ( int  dataType,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_CreateDefaultLookupTable_05 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_DeepCopy_06 ( HandleRef  pThis,
HandleRef  aa 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_DeepCopy_07 ( HandleRef  pThis,
HandleRef  da 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_FillComponent_08 ( HandleRef  pThis,
int  j,
double  c 
) [private]
static internal uint Kitware.VTK.vtkDataArray.vtkDataArray_GetActualMemorySize_09 ( HandleRef  pThis) [private]
static internal double Kitware.VTK.vtkDataArray.vtkDataArray_GetComponent_10 ( HandleRef  pThis,
int  i,
int  j 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetData_11 ( HandleRef  pThis,
int  tupleMin,
int  tupleMax,
int  compMin,
int  compMax,
HandleRef  data 
) [private]
static internal double Kitware.VTK.vtkDataArray.vtkDataArray_GetDataTypeMax_12 ( HandleRef  pThis) [private]
static internal double Kitware.VTK.vtkDataArray.vtkDataArray_GetDataTypeMax_13 ( int  type) [private]
static internal double Kitware.VTK.vtkDataArray.vtkDataArray_GetDataTypeMin_14 ( HandleRef  pThis) [private]
static internal double Kitware.VTK.vtkDataArray.vtkDataArray_GetDataTypeMin_15 ( int  type) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetDataTypeRange_16 ( HandleRef  pThis,
IntPtr  range 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetDataTypeRange_17 ( int  type,
IntPtr  range 
) [private]
static internal int Kitware.VTK.vtkDataArray.vtkDataArray_GetElementComponentSize_18 ( HandleRef  pThis) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetLookupTable_19 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal double Kitware.VTK.vtkDataArray.vtkDataArray_GetMaxNorm_20 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetRange_21 ( HandleRef  pThis,
IntPtr  range,
int  comp 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetRange_22 ( HandleRef  pThis,
int  comp 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetRange_23 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetRange_24 ( HandleRef  pThis,
IntPtr  range 
) [private]
static internal double Kitware.VTK.vtkDataArray.vtkDataArray_GetTuple1_27 ( HandleRef  pThis,
int  i 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetTuple2_28 ( HandleRef  pThis,
int  i 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetTuple3_29 ( HandleRef  pThis,
int  i 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetTuple4_30 ( HandleRef  pThis,
int  i 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetTuple9_31 ( HandleRef  pThis,
int  i 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_GetTuple_25 ( HandleRef  pThis,
int  i 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetTuple_26 ( HandleRef  pThis,
int  i,
IntPtr  tuple 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetTuples_32 ( HandleRef  pThis,
HandleRef  ptIds,
HandleRef  output 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_GetTuples_33 ( HandleRef  pThis,
int  p1,
int  p2,
HandleRef  output 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertComponent_34 ( HandleRef  pThis,
int  i,
int  j,
double  c 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertNextTuple1_37 ( HandleRef  pThis,
double  value 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertNextTuple2_38 ( HandleRef  pThis,
double  val0,
double  val1 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertNextTuple3_39 ( HandleRef  pThis,
double  val0,
double  val1,
double  val2 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertNextTuple4_40 ( HandleRef  pThis,
double  val0,
double  val1,
double  val2,
double  val3 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertNextTuple9_41 ( HandleRef  pThis,
double  val0,
double  val1,
double  val2,
double  val3,
double  val4,
double  val5,
double  val6,
double  val7,
double  val8 
) [private]
static internal int Kitware.VTK.vtkDataArray.vtkDataArray_InsertNextTuple_35 ( HandleRef  pThis,
int  j,
HandleRef  source 
) [private]
static internal int Kitware.VTK.vtkDataArray.vtkDataArray_InsertNextTuple_36 ( HandleRef  pThis,
IntPtr  tuple 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertTuple1_44 ( HandleRef  pThis,
int  i,
double  value 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertTuple2_45 ( HandleRef  pThis,
int  i,
double  val0,
double  val1 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertTuple3_46 ( HandleRef  pThis,
int  i,
double  val0,
double  val1,
double  val2 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertTuple4_47 ( HandleRef  pThis,
int  i,
double  val0,
double  val1,
double  val2,
double  val3 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertTuple9_48 ( HandleRef  pThis,
int  i,
double  val0,
double  val1,
double  val2,
double  val3,
double  val4,
double  val5,
double  val6,
double  val7,
double  val8 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertTuple_42 ( HandleRef  pThis,
int  i,
int  j,
HandleRef  source 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InsertTuple_43 ( HandleRef  pThis,
int  i,
IntPtr  tuple 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InterpolateTuple_49 ( HandleRef  pThis,
int  i,
HandleRef  ptIndices,
HandleRef  source,
IntPtr  weights 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_InterpolateTuple_50 ( HandleRef  pThis,
int  i,
int  id1,
HandleRef  source1,
int  id2,
HandleRef  source2,
double  t 
) [private]
static internal int Kitware.VTK.vtkDataArray.vtkDataArray_IsA_51 ( HandleRef  pThis,
string  type 
) [private]
static internal int Kitware.VTK.vtkDataArray.vtkDataArray_IsNumeric_52 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkDataArray.vtkDataArray_IsTypeOf_53 ( string  type) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_L2_NORM_RANGE_54 ( ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_NewInstance_55 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_PER_COMPONENT_56 ( ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_RemoveFirstTuple_57 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_RemoveLastTuple_58 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_RemoveTuple_59 ( HandleRef  pThis,
int  id 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_SafeDownCast_60 ( HandleRef  o,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetComponent_61 ( HandleRef  pThis,
int  i,
int  j,
double  c 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetLookupTable_62 ( HandleRef  pThis,
HandleRef  lut 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetTuple1_65 ( HandleRef  pThis,
int  i,
double  value 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetTuple2_66 ( HandleRef  pThis,
int  i,
double  val0,
double  val1 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetTuple3_67 ( HandleRef  pThis,
int  i,
double  val0,
double  val1,
double  val2 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetTuple4_68 ( HandleRef  pThis,
int  i,
double  val0,
double  val1,
double  val2,
double  val3 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetTuple9_69 ( HandleRef  pThis,
int  i,
double  val0,
double  val1,
double  val2,
double  val3,
double  val4,
double  val5,
double  val6,
double  val7,
double  val8 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetTuple_63 ( HandleRef  pThis,
int  i,
int  j,
HandleRef  source 
) [private]
static internal void Kitware.VTK.vtkDataArray.vtkDataArray_SetTuple_64 ( HandleRef  pThis,
int  i,
IntPtr  tuple 
) [private]
static internal IntPtr Kitware.VTK.vtkDataArray.vtkDataArray_WriteVoidPointer_70 ( HandleRef  pThis,
int  id,
int  number 
) [private]
virtual IntPtr Kitware.VTK.vtkDataArray.WriteVoidPointer ( int  id,
int  number 
) [virtual]

Get the address of a particular data index. Make sure data is allocated for the number of items requested. Set MaxId according to the number of data values requested.

Reimplemented in Kitware.VTK.vtkBitArray.


Member Data Documentation

new readonly string Kitware.VTK.vtkDataArray.MRClassNameKey = "12vtkDataArray" [static]
new const string Kitware.VTK.vtkDataArray.MRFullTypeName = "Kitware.VTK.vtkDataArray"

The documentation for this class was generated from the following file: