map scalar values into colors via a lookup table More...

#include <vtkLookupTable.h>

Inheritance diagram for vtkLookupTable:

Collaboration diagram for vtkLookupTable:

Public Types
typedef vtkScalarsToColors	Superclass

Public Types inherited from vtkScalarsToColors
enum	VectorModes { MAGNITUDE = 0 , COMPONENT = 1 , RGBCOLORS = 2 }

typedef vtkObject	Superclass

Public Member Functions
virtual vtkTypeBool	IsA (const char *type)
	Return 1 if this class is the same type of (or a subclass of) the named class.

vtkLookupTable *	NewInstance () const

void	PrintSelf (ostream &os, vtkIndent indent) override
	Methods invoked by print to print information about the object including superclasses.

int	Allocate (int sz=256, int ext=256)
	Allocate a color table of specified size.

void	Build () override
	Generate lookup table from hue, saturation, value, alpha min/max values.

virtual void	ForceBuild ()
	Force the lookup table to regenerate from hue, saturation, value, and alpha min/max values.

void	BuildSpecialColors ()
	Copies the "special" colors into the given table.

unsigned char *	GetNanColorAsUnsignedChars ()
	Return the NanColor as a pointer to 4 unsigned chars.

const unsigned char *	MapValue (double v) override
	Map one value through the lookup table, returning an RBGA[4] color.

void	GetColor (double v, double rgb[3]) override
	Map one value through the lookup table and return the color as an RGB[3] array of doubles between 0 and 1.

double	GetOpacity (double v) override
	Map one value through the lookup table and return the alpha value (the opacity) as a double between 0 and 1.

virtual vtkIdType	GetIndex (double v)
	Return the table index associated with a particular value.

virtual void	SetTableValue (vtkIdType indx, const double rgba[4])
	Directly load color into lookup table.

virtual void	SetTableValue (vtkIdType indx, double r, double g, double b, double a=1.0)
	Directly load color into lookup table.

double *	GetTableValue (vtkIdType indx)
	Return an RGBA color value for the given index into the lookup table.

void	GetTableValue (vtkIdType indx, double rgba[4])
	Return an RGBA color value for the given index into the lookup table.

unsigned char *	GetPointer (vtkIdType id)
	Get pointer to color table data.

unsigned char *	WritePointer (vtkIdType id, int number)
	Get pointer to data.

void	MapScalarsThroughTable2 (void input, unsigned char output, int inputDataType, int numberOfValues, int inputIncrement, int outputFormat) override
	Map a set of scalars through the lookup table.

void	DeepCopy (vtkScalarsToColors *obj) override
	Copy the contents from another LookupTable.

int	UsingLogScale () override
	This should return 1 if the subclass is using log scale for mapping scalars to colors.

vtkIdType	GetNumberOfAvailableColors () override
	Get the number of available colors for mapping to.

void	GetIndexedColor (vtkIdType idx, double rgba[4]) override
	Return a color given an integer index.


int	IsOpaque () override
	Return true if all of the values defining the mapping have an opacity equal to 1.

int	IsOpaque (vtkAbstractArray *scalars, int colorMode, int component) override
	Return true if all of the values defining the mapping have an opacity equal to 1.


virtual void	SetRamp (int)
	Set the shape of the table ramp to either S-curve, linear, or sqrt.

void	SetRampToLinear ()
	Set the shape of the table ramp to either S-curve, linear, or sqrt.

void	SetRampToSCurve ()
	Set the shape of the table ramp to either S-curve, linear, or sqrt.

void	SetRampToSQRT ()
	Set the shape of the table ramp to either S-curve, linear, or sqrt.

virtual int	GetRamp ()
	Set the shape of the table ramp to either S-curve, linear, or sqrt.


void	SetScale (int scale)
	Set the type of scale to use, linear or logarithmic.

void	SetScaleToLinear ()
	Set the type of scale to use, linear or logarithmic.

void	SetScaleToLog10 ()
	Set the type of scale to use, linear or logarithmic.

virtual int	GetScale ()
	Set the type of scale to use, linear or logarithmic.


virtual void	SetTableRange (const double r[2])
	Set/Get the minimum/maximum scalar values for scalar mapping.

virtual void	SetTableRange (double min, double max)
	Set/Get the minimum/maximum scalar values for scalar mapping.

virtual double *	GetTableRange ()
	Set/Get the minimum/maximum scalar values for scalar mapping.

virtual void	GetTableRange (double data[2])
	Set/Get the minimum/maximum scalar values for scalar mapping.


virtual void	SetHueRange (double, double)
	Set the range in hue (using automatic generation).

void	SetHueRange (double[2])
	Set the range in hue (using automatic generation).

virtual double *	GetHueRange ()
	Set the range in hue (using automatic generation).

virtual void	GetHueRange (double &, double &)
	Set the range in hue (using automatic generation).

virtual void	GetHueRange (double[2])
	Set the range in hue (using automatic generation).


virtual void	SetSaturationRange (double, double)
	Set the range in saturation (using automatic generation).

void	SetSaturationRange (double[2])
	Set the range in saturation (using automatic generation).

virtual double *	GetSaturationRange ()
	Set the range in saturation (using automatic generation).

virtual void	GetSaturationRange (double &, double &)
	Set the range in saturation (using automatic generation).

virtual void	GetSaturationRange (double[2])
	Set the range in saturation (using automatic generation).


virtual void	SetValueRange (double, double)
	Set the range in value (using automatic generation).

void	SetValueRange (double[2])
	Set the range in value (using automatic generation).

virtual double *	GetValueRange ()
	Set the range in value (using automatic generation).

virtual void	GetValueRange (double &, double &)
	Set the range in value (using automatic generation).

virtual void	GetValueRange (double[2])
	Set the range in value (using automatic generation).


virtual void	SetAlphaRange (double, double)
	Set the range in alpha (using automatic generation).

void	SetAlphaRange (double[2])
	Set the range in alpha (using automatic generation).

virtual double *	GetAlphaRange ()
	Set the range in alpha (using automatic generation).

virtual void	GetAlphaRange (double &, double &)
	Set the range in alpha (using automatic generation).

virtual void	GetAlphaRange (double[2])
	Set the range in alpha (using automatic generation).


virtual void	SetNanColor (double, double, double, double)
	Set the color to use when a NaN (not a number) is encountered.

virtual void	SetNanColor (double[4])
	Set the color to use when a NaN (not a number) is encountered.

virtual double *	GetNanColor ()
	Set the color to use when a NaN (not a number) is encountered.

virtual void	GetNanColor (double &, double &, double &, double &)
	Set the color to use when a NaN (not a number) is encountered.

virtual void	GetNanColor (double[4])
	Set the color to use when a NaN (not a number) is encountered.


virtual void	SetBelowRangeColor (double, double, double, double)
	Set the color to use when a value below the range is encountered.

virtual void	SetBelowRangeColor (double[4])
	Set the color to use when a value below the range is encountered.

virtual double *	GetBelowRangeColor ()
	Set the color to use when a value below the range is encountered.

virtual void	GetBelowRangeColor (double &, double &, double &, double &)
	Set the color to use when a value below the range is encountered.

virtual void	GetBelowRangeColor (double[4])
	Set the color to use when a value below the range is encountered.


virtual void	SetUseBelowRangeColor (vtkTypeBool)
	Set whether the below range color should be used.

virtual vtkTypeBool	GetUseBelowRangeColor ()
	Set whether the below range color should be used.

virtual void	UseBelowRangeColorOn ()
	Set whether the below range color should be used.

virtual void	UseBelowRangeColorOff ()
	Set whether the below range color should be used.


virtual void	SetAboveRangeColor (double, double, double, double)
	Set the color to use when a value above the range is encountered.

virtual void	SetAboveRangeColor (double[4])
	Set the color to use when a value above the range is encountered.

virtual double *	GetAboveRangeColor ()
	Set the color to use when a value above the range is encountered.

virtual void	GetAboveRangeColor (double &, double &, double &, double &)
	Set the color to use when a value above the range is encountered.

virtual void	GetAboveRangeColor (double[4])
	Set the color to use when a value above the range is encountered.


virtual void	SetUseAboveRangeColor (vtkTypeBool)
	Set whether the above range color should be used.

virtual vtkTypeBool	GetUseAboveRangeColor ()
	Set whether the above range color should be used.

virtual void	UseAboveRangeColorOn ()
	Set whether the above range color should be used.

virtual void	UseAboveRangeColorOff ()
	Set whether the above range color should be used.


void	SetNumberOfTableValues (vtkIdType number)
	Specify the number of values (i.e., colors) in the lookup table.

vtkIdType	GetNumberOfTableValues ()
	Specify the number of values (i.e., colors) in the lookup table.


double *	GetRange () override
	Sets/Gets the range of scalars which will be mapped.

void	SetRange (double min, double max) override
	Sets/Gets the range of scalars which will be mapped.

void	SetRange (const double rng[2]) override
	Sets/Gets the range of scalars which will be mapped.


virtual void	SetNumberOfColors (vtkIdType)
	Set the number of colors in the lookup table.

virtual vtkIdType	GetNumberOfColors ()
	Set the number of colors in the lookup table.


void	SetTable (vtkUnsignedCharArray *)
	Set/Get the internal table array that is used to map the scalars to colors.

virtual vtkUnsignedCharArray *	GetTable ()
	Set/Get the internal table array that is used to map the scalars to colors.

Public Member Functions inherited from vtkScalarsToColors
virtual vtkTypeBool	IsA (const char *type)
	Return 1 if this class is the same type of (or a subclass of) the named class.

vtkScalarsToColors *	NewInstance () const

void	PrintSelf (ostream &os, vtkIndent indent) override
	Methods invoked by print to print information about the object including superclasses.

virtual void	Build ()
	Perform any processing required (if any) before processing scalars.

virtual const unsigned char *	MapValue (double v)
	Map one value through the lookup table and return a color defined as an RGBA unsigned char tuple (4 bytes).

virtual void	GetColor (double v, double rgb[3])
	Map one value through the lookup table and store the color as an RGB array of doubles between 0 and 1 in the rgb argument.

double *	GetColor (double v)
	Map one value through the lookup table and return the color as an RGB array of doubles between 0 and 1.

virtual double	GetOpacity (double v)
	Map one value through the lookup table and return the alpha value (the opacity) as a double between 0 and 1.

double	GetLuminance (double x)
	Map one value through the lookup table and return the luminance 0.3red + 0.59green + 0.11*blue as a double between 0 and 1.

void	MapVectorsThroughTable (void input, unsigned char output, int inputDataType, int numberOfValues, int inputIncrement, int outputFormat, int vectorComponent, int vectorSize)
	Map vectors through the lookup table.

void	MapVectorsThroughTable (void input, unsigned char output, int inputDataType, int numberOfValues, int inputIncrement, int outputFormat)

void	MapScalarsThroughTable (vtkDataArray scalars, unsigned char output, int outputFormat)
	Map a set of scalars through the lookup table in a single operation.

void	MapScalarsThroughTable (vtkDataArray scalars, unsigned char output)

void	MapScalarsThroughTable (void input, unsigned char output, int inputDataType, int numberOfValues, int inputIncrement, int outputFormat)

virtual void	MapScalarsThroughTable2 (void input, unsigned char output, int inputDataType, int numberOfValues, int inputIncrement, int outputFormat)
	An internal method typically not used in applications.

virtual void	DeepCopy (vtkScalarsToColors *o)
	Copy the contents from another object.

virtual int	UsingLogScale ()
	This should return 1 is the subclass is using log scale for mapping scalars to colors.

virtual vtkIdType	GetNumberOfAvailableColors ()
	Get the number of available colors for mapping to.

virtual vtkIdType	SetAnnotation (vtkVariant value, vtkStdString annotation)
	Add a new entry (or change an existing entry) to the list of annotated values.

virtual vtkIdType	SetAnnotation (vtkStdString value, vtkStdString annotation)
	This variant of SetAnnotation accepts the value as a string so ParaView can treat annotations as string vector arrays.

vtkIdType	GetNumberOfAnnotatedValues ()
	Return the annotated value at a particular index in the list of annotations.

vtkVariant	GetAnnotatedValue (vtkIdType idx)
	Return the annotated value at a particular index in the list of annotations.

vtkStdString	GetAnnotation (vtkIdType idx)
	Return the annotation at a particular index in the list of annotations.

virtual void	GetAnnotationColor (const vtkVariant &val, double rgba[4])
	Obtain the color associated with a particular annotated value (or NanColor if unmatched).

vtkIdType	GetAnnotatedValueIndex (vtkVariant val)
	Return the index of the given value in the list of annotated values (or -1 if not present).

vtkIdType	GetAnnotatedValueIndexInternal (const vtkVariant &val)
	Look up an index into the array of annotations given a value.

virtual void	GetIndexedColor (vtkIdType i, double rgba[4])
	Get the "indexed color" assigned to an index.

virtual bool	RemoveAnnotation (vtkVariant value)
	Remove an existing entry from the list of annotated values.

virtual void	ResetAnnotations ()
	Remove all existing values and their annotations.

virtual void	SetAlpha (double alpha)
	Specify an additional opacity (alpha) value to blend with.

virtual double	GetAlpha ()
	Specify an additional opacity (alpha) value to blend with.

virtual vtkUnsignedCharArray *	MapScalars (vtkDataArray *scalars, int colorMode, int component, int outputFormat=VTK_RGBA)
	Internal methods that map a data array into an unsigned char array.

virtual vtkUnsignedCharArray *	MapScalars (vtkAbstractArray *scalars, int colorMode, int component, int outputFormat=VTK_RGBA)
	Internal methods that map a data array into an unsigned char array.

virtual void	SetVectorMode (int)
	Change mode that maps vectors by magnitude vs.

virtual int	GetVectorMode ()
	Change mode that maps vectors by magnitude vs.

void	SetVectorModeToMagnitude ()
	Change mode that maps vectors by magnitude vs.

void	SetVectorModeToComponent ()
	Change mode that maps vectors by magnitude vs.

void	SetVectorModeToRGBColors ()
	Change mode that maps vectors by magnitude vs.

virtual void	SetVectorComponent (int)
	If the mapper does not select which component of a vector to map to colors, you can specify it here.

virtual int	GetVectorComponent ()
	If the mapper does not select which component of a vector to map to colors, you can specify it here.

virtual void	SetVectorSize (int)
	When mapping vectors, consider only the number of components selected by VectorSize to be part of the vector, and ignore any other components.

virtual int	GetVectorSize ()
	When mapping vectors, consider only the number of components selected by VectorSize to be part of the vector, and ignore any other components.

virtual void	SetAnnotations (vtkAbstractArray values, vtkStringArray annotations)
	Set a list of discrete values, either as a categorical set of values (when IndexedLookup is true) or as a set of annotations to add to a scalar array (when IndexedLookup is false).

virtual vtkAbstractArray *	GetAnnotatedValues ()
	Set a list of discrete values, either as a categorical set of values (when IndexedLookup is true) or as a set of annotations to add to a scalar array (when IndexedLookup is false).

virtual vtkStringArray *	GetAnnotations ()
	Set a list of discrete values, either as a categorical set of values (when IndexedLookup is true) or as a set of annotations to add to a scalar array (when IndexedLookup is false).

virtual void	SetIndexedLookup (vtkTypeBool)
	Set/get whether the lookup table is for categorical or ordinal data.

virtual vtkTypeBool	GetIndexedLookup ()
	Set/get whether the lookup table is for categorical or ordinal data.

virtual void	IndexedLookupOn ()
	Set/get whether the lookup table is for categorical or ordinal data.

virtual void	IndexedLookupOff ()
	Set/get whether the lookup table is for categorical or ordinal data.

template<>
unsigned char	ColorToUChar (double t)
	Specializations of vtkScalarsToColors::ColorToUChar Converts from a color in a floating point type in range 0.0-1.0 to a uchar in range 0-255.

template<>
unsigned char	ColorToUChar (float t)
	Specializations of vtkScalarsToColors::ColorToUChar Converts from a color in a floating point type in range 0.0-1.0 to a uchar in range 0-255.

Public Member Functions inherited from vtkObject
	vtkBaseTypeMacro (vtkObject, vtkObjectBase)

virtual void	DebugOn ()
	Turn debugging output on.

virtual void	DebugOff ()
	Turn debugging output off.

bool	GetDebug ()
	Get the value of the debug flag.

void	SetDebug (bool debugFlag)
	Set the value of the debug flag.

virtual void	Modified ()
	Update the modification time for this object.

virtual vtkMTimeType	GetMTime ()
	Return this object's modified time.

void	PrintSelf (ostream &os, vtkIndent indent) override
	Methods invoked by print to print information about the object including superclasses.

void	RemoveObserver (unsigned long tag)

void	RemoveObservers (unsigned long event)

void	RemoveObservers (const char *event)

void	RemoveAllObservers ()

vtkTypeBool	HasObserver (unsigned long event)

vtkTypeBool	HasObserver (const char *event)

int	InvokeEvent (unsigned long event)

int	InvokeEvent (const char *event)

unsigned long	AddObserver (unsigned long event, vtkCommand *, float priority=0.0f)
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

unsigned long	AddObserver (const char event, vtkCommand , float priority=0.0f)
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

vtkCommand *	GetCommand (unsigned long tag)
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

void	RemoveObserver (vtkCommand *)
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

void	RemoveObservers (unsigned long event, vtkCommand *)
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

void	RemoveObservers (const char event, vtkCommand )
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

vtkTypeBool	HasObserver (unsigned long event, vtkCommand *)
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

vtkTypeBool	HasObserver (const char event, vtkCommand )
	Allow people to add/remove/invoke observers (callbacks) to any VTK object.

template<class U , class T >
unsigned long	AddObserver (unsigned long event, U observer, void(T::*callback)(), float priority=0.0f)
	Overloads to AddObserver that allow developers to add class member functions as callbacks for events.

template<class U , class T >
unsigned long	AddObserver (unsigned long event, U observer, void(T::callback)(vtkObject , unsigned long, void *), float priority=0.0f)
	Overloads to AddObserver that allow developers to add class member functions as callbacks for events.

template<class U , class T >
unsigned long	AddObserver (unsigned long event, U observer, bool(T::callback)(vtkObject , unsigned long, void *), float priority=0.0f)
	Allow user to set the AbortFlagOn() with the return value of the callback method.

int	InvokeEvent (unsigned long event, void *callData)
	This method invokes an event and return whether the event was aborted or not.

int	InvokeEvent (const char event, void callData)
	This method invokes an event and return whether the event was aborted or not.

Public Member Functions inherited from vtkObjectBase
const char *	GetClassName () const
	Return the class name as a string.

virtual vtkTypeBool	IsA (const char *name)
	Return 1 if this class is the same type of (or a subclass of) the named class.

virtual vtkIdType	GetNumberOfGenerationsFromBase (const char *name)
	Given the name of a base class of this class type, return the distance of inheritance between this class type and the named class (how many generations of inheritance are there between this class and the named class).

virtual void	Delete ()
	Delete a VTK object.

virtual void	FastDelete ()
	Delete a reference to this object.

void	InitializeObjectBase ()

void	Print (ostream &os)
	Print an object to an ostream.

virtual void	Register (vtkObjectBase *o)
	Increase the reference count (mark as used by another object).

virtual void	UnRegister (vtkObjectBase *o)
	Decrease the reference count (release by another object).

int	GetReferenceCount ()
	Return the current reference count of this object.

void	SetReferenceCount (int)
	Sets the reference count.

bool	GetIsInMemkind () const
	A local state flag that remembers whether this object lives in the normal or extended memory space.

virtual void	PrintHeader (ostream &os, vtkIndent indent)
	Methods invoked by print to print information about the object including superclasses.

virtual void	PrintTrailer (ostream &os, vtkIndent indent)
	Methods invoked by print to print information about the object including superclasses.

Static Public Member Functions
static vtkLookupTable *	New ()
	Construct with range=[0,1]; and hsv ranges set up for rainbow color table (from red to blue).

static vtkTypeBool	IsTypeOf (const char *type)

static vtkLookupTable *	SafeDownCast (vtkObjectBase *o)

static void	GetColorAsUnsignedChars (const double colorIn[4], unsigned char colorOut[4])
	Given an RGBA[4] color in the [0,1] range, convert it to RGBA[4] in the [0,255] range.

static void	GetLogRange (const double range[2], double log_range[2])
	Returns the log of `range` in `log_range`.

static double	ApplyLogScale (double v, const double range[2], const double log_range[2])
	Apply log to value, with appropriate constraints.

Static Public Member Functions inherited from vtkScalarsToColors
static vtkTypeBool	IsTypeOf (const char *type)

static vtkScalarsToColors *	SafeDownCast (vtkObjectBase *o)

static vtkScalarsToColors *	New ()

template<typename T >
static unsigned char	ColorToUChar (T t)
	Converts a color from numeric type T to uchar.

template<typename T >
static void	ColorToUChar (T t, unsigned char *dest)
	Converts a color from numeric type T to uchar.

Static Public Member Functions inherited from vtkObject
static vtkObject *	New ()
	Create an object with Debug turned off, modified time initialized to zero, and reference counting on.

static void	BreakOnError ()
	This method is called when vtkErrorMacro executes.

static void	SetGlobalWarningDisplay (int val)
	This is a global flag that controls whether any debug, warning or error messages are displayed.

static void	GlobalWarningDisplayOn ()
	This is a global flag that controls whether any debug, warning or error messages are displayed.

static void	GlobalWarningDisplayOff ()
	This is a global flag that controls whether any debug, warning or error messages are displayed.

static int	GetGlobalWarningDisplay ()
	This is a global flag that controls whether any debug, warning or error messages are displayed.

Static Public Member Functions inherited from vtkObjectBase
static vtkTypeBool	IsTypeOf (const char *name)
	Return 1 if this class type is the same type of (or a subclass of) the named class.

static vtkIdType	GetNumberOfGenerationsFromBaseType (const char *name)
	Given a the name of a base class of this class type, return the distance of inheritance between this class type and the named class (how many generations of inheritance are there between this class and the named class).

static vtkObjectBase *	New ()
	Create an object with Debug turned off, modified time initialized to zero, and reference counting on.

static void	SetMemkindDirectory (const char *directoryname)
	The name of a directory, ideally mounted -o dax, to memory map an extended memory space within.

static bool	GetUsingMemkind ()
	A global state flag that controls whether vtkObjects are constructed in the usual way (the default) or within the extended memory space.

Static Public Attributes

static const vtkIdType	REPEATED_LAST_COLOR_INDEX
	Constants for offsets of special colors (e.g., NanColor, BelowRangeColor, AboveRangeColor) from the maximum index in the lookup table.

static const vtkIdType	BELOW_RANGE_COLOR_INDEX
	Constants for offsets of special colors (e.g., NanColor, BelowRangeColor, AboveRangeColor) from the maximum index in the lookup table.

static const vtkIdType	ABOVE_RANGE_COLOR_INDEX
	Constants for offsets of special colors (e.g., NanColor, BelowRangeColor, AboveRangeColor) from the maximum index in the lookup table.

static const vtkIdType	NAN_COLOR_INDEX
	Constants for offsets of special colors (e.g., NanColor, BelowRangeColor, AboveRangeColor) from the maximum index in the lookup table.

static const vtkIdType	NUMBER_OF_SPECIAL_COLORS
	Constants for offsets of special colors (e.g., NanColor, BelowRangeColor, AboveRangeColor) from the maximum index in the lookup table.

Protected Member Functions
virtual vtkObjectBase *	NewInstanceInternal () const

	vtkLookupTable (int sze=256, int ext=256)

	~vtkLookupTable () override

void	ResizeTableForSpecialColors ()
	Resize the LookupTable to have enough room for the out-of-range colors.

Protected Member Functions inherited from vtkScalarsToColors
virtual vtkObjectBase *	NewInstanceInternal () const

	vtkScalarsToColors ()

	~vtkScalarsToColors () override

void	MapColorsToColors (void input, unsigned char output, int inputDataType, int numberOfValues, int numberOfComponents, int vectorSize, int outputFormat)
	An internal method that assumes that the input already has the right colors, and only remaps the range to [0,255] and pads to the desired output format.

vtkUnsignedCharArray *	ConvertToRGBA (vtkDataArray *colors, int numComp, int numTuples)
	An internal method used to convert a color array to RGBA.

void	MapVectorsToMagnitude (void input, double output, int inputDataType, int numberOfValues, int numberOfComponents, int vectorSize)
	An internal method for converting vectors to magnitudes, used as a preliminary step before doing magnitude mapping.

virtual vtkIdType	CheckForAnnotatedValue (vtkVariant value)
	Allocate annotation arrays if needed, then return the index of the given value or -1 if not present.

virtual void	UpdateAnnotatedValueMap ()
	Update the map from annotated values to indices in the array of annotations.

Protected Member Functions inherited from vtkObject
	vtkObject ()

	~vtkObject () override

void	RegisterInternal (vtkObjectBase *, vtkTypeBool check) override

void	UnRegisterInternal (vtkObjectBase *, vtkTypeBool check) override

void	InternalGrabFocus (vtkCommand mouseEvents, vtkCommand keypressEvents=nullptr)
	These methods allow a command to exclusively grab all events.

void	InternalReleaseFocus ()
	These methods allow a command to exclusively grab all events.

Protected Member Functions inherited from vtkObjectBase
	vtkObjectBase ()

virtual	~vtkObjectBase ()

virtual void	RegisterInternal (vtkObjectBase *, vtkTypeBool check)

virtual void	UnRegisterInternal (vtkObjectBase *, vtkTypeBool check)

virtual void	ReportReferences (vtkGarbageCollector *)

	vtkObjectBase (const vtkObjectBase &)

void	operator= (const vtkObjectBase &)

Protected Attributes
vtkIdType	NumberOfColors

vtkUnsignedCharArray *	Table

double	TableRange [2]

double	HueRange [2]

double	SaturationRange [2]

double	ValueRange [2]

double	AlphaRange [2]

double	NanColor [4]

double	BelowRangeColor [4]

vtkTypeBool	UseBelowRangeColor

double	AboveRangeColor [4]

vtkTypeBool	UseAboveRangeColor

int	Scale

int	Ramp

vtkTimeStamp	InsertTime

vtkTimeStamp	BuildTime

double	RGBA [4]

unsigned char	NanColorChar [4]

int	OpaqueFlag

vtkTimeStamp	OpaqueFlagBuildTime

vtkTimeStamp	SpecialColorsBuildTime

Protected Attributes inherited from vtkScalarsToColors
vtkAbstractArray *	AnnotatedValues

vtkStringArray *	Annotations

vtkInternalAnnotatedValueList *	AnnotatedValueList

vtkTypeBool	IndexedLookup

double	Alpha

int	VectorMode

int	VectorComponent

int	VectorSize

int	UseMagnitude

unsigned char	RGBABytes [4]

Protected Attributes inherited from vtkObject
bool	Debug

vtkTimeStamp	MTime

vtkSubjectHelper *	SubjectHelper

Protected Attributes inherited from vtkObjectBase
std::atomic< int32_t >	ReferenceCount

vtkWeakPointerBase **	WeakPointers

Additional Inherited Members
Static Protected Member Functions inherited from vtkObjectBase
static vtkMallocingFunction	GetCurrentMallocFunction ()

static vtkReallocingFunction	GetCurrentReallocFunction ()

static vtkFreeingFunction	GetCurrentFreeFunction ()

static vtkFreeingFunction	GetAlternateFreeFunction ()

Detailed Description

map scalar values into colors via a lookup table

vtkLookupTable is an object that is used by mapper objects to map scalar values into RGBA (red-green-blue-alpha) color specification, or RGBA into scalar values. The color table can be created by direct insertion of color values, or by specifying a hue, saturation, value, and alpha range and generating a table.

A special color for NaN values in the data can be specified via SetNanColor(). In addition, a color for data values below the lookup table range minimum can be specified with SetBelowRangeColor(), and that color will be used for values below the range minimum when UseBelowRangeColor is on. Likewise, a color for data values above the lookup table range maximum can be specified with SetAboveRangeColor(), and it is used when UseAboveRangeColor is on.

This class behaves differently depending on how IndexedLookup is set. When true, vtkLookupTable enters a mode for representing categorical color maps. By setting IndexedLookup to true, you indicate that the annotated values are the only valid values for which entries in the color table should be returned. The colors in the lookup Table are assigned to annotated values by taking the modulus of their index in the list of annotations. IndexedLookup changes the behavior of GetIndex, which in turn changes the way MapScalarsThroughTable2 behaves; when IndexedLookup is true, MapScalarsThroughTable2 will search for scalar values in AnnotatedValues and use the resulting index to determine the color. If a scalar value is not present in AnnotatedValues, then NanColor will be used.

Warning: You need to explicitly call Build() when constructing the LUT by hand.

See also: vtkLogLookupTable vtkWindowLevelLookupTable

Online Examples:

ColorEdges

ColorVerticesLookupTable

InterpolateFieldDataDemo

StructuredGrid

LUTUtilities

AssignCellColorsFromLUT

Definition at line 177 of file vtkLookupTable.h.

Member Typedef Documentation

◆ Superclass

typedef vtkScalarsToColors vtkLookupTable::Superclass

Definition at line 199 of file vtkLookupTable.h.

Constructor & Destructor Documentation

◆ vtkLookupTable()

vtkLookupTable::vtkLookupTable	(	int	sze = `256`,
		int	ext = `256`
	)

protected

◆ ~vtkLookupTable()

vtkLookupTable::~vtkLookupTable ( )

overrideprotected

Member Function Documentation

◆ New()

static vtkLookupTable * vtkLookupTable::New ( )

static

Construct with range=[0,1]; and hsv ranges set up for rainbow color table (from red to blue).

◆ IsTypeOf()

static vtkTypeBool vtkLookupTable::IsTypeOf ( const char * type )

static

◆ IsA()

virtual vtkTypeBool vtkLookupTable::IsA ( const char * name )

virtual

Return 1 if this class is the same type of (or a subclass of) the named class.

Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h.

Reimplemented from vtkScalarsToColors.

Reimplemented in vtkLogLookupTable, vtkLookupTableWithEnabling, and vtkWindowLevelLookupTable.

◆ SafeDownCast()

static vtkLookupTable * vtkLookupTable::SafeDownCast ( vtkObjectBase * o )

static

◆ NewInstanceInternal()

virtual vtkObjectBase * vtkLookupTable::NewInstanceInternal ( ) const

protectedvirtual

Reimplemented from vtkScalarsToColors.

Reimplemented in vtkLogLookupTable, vtkLookupTableWithEnabling, and vtkWindowLevelLookupTable.

◆ NewInstance()

vtkLookupTable * vtkLookupTable::NewInstance ( ) const

◆ PrintSelf()

void vtkLookupTable::PrintSelf	(	ostream &	os,
		vtkIndent	indent
	)

overridevirtual

Methods invoked by print to print information about the object including superclasses.

Typically not called by the user (use Print() instead) but used in the hierarchical print process to combine the output of several classes.

Reimplemented from vtkObjectBase.

Reimplemented in vtkLogLookupTable, vtkLookupTableWithEnabling, and vtkWindowLevelLookupTable.

◆ IsOpaque() [1/2]

int vtkLookupTable::IsOpaque ( )

overridevirtual

Return true if all of the values defining the mapping have an opacity equal to 1.

Reimplemented from vtkScalarsToColors.

◆ IsOpaque() [2/2]

int vtkLookupTable::IsOpaque	(	vtkAbstractArray *	scalars,
		int	colorMode,
		int	component
	)

overridevirtual

Return true if all of the values defining the mapping have an opacity equal to 1.

Reimplemented from vtkScalarsToColors.

◆ Allocate()

int vtkLookupTable::Allocate	(	int	sz = `256`,
		int	ext = `256`
	)

Allocate a color table of specified size.

Note that ext is no longer used.

◆ Build()

void vtkLookupTable::Build ( )

overridevirtual

Generate lookup table from hue, saturation, value, alpha min/max values.

Table is built from linear ramp of each value.

Reimplemented from vtkScalarsToColors.

◆ ForceBuild()

virtual void vtkLookupTable::ForceBuild ( )

virtual

Force the lookup table to regenerate from hue, saturation, value, and alpha min/max values.

Table is built from a linear ramp of each value. ForceBuild() is useful if a lookup table has been defined manually (using SetTableValue) and then an application decides to rebuild the lookup table using the implicit process.

Reimplemented in vtkWindowLevelLookupTable.

◆ BuildSpecialColors()

void vtkLookupTable::BuildSpecialColors ( )

Copies the "special" colors into the given table.

◆ SetRamp()

virtual void vtkLookupTable::SetRamp ( int )

virtual

Set the shape of the table ramp to either S-curve, linear, or sqrt.

The default is S-curve, which tails off gradually at either end.

The equation used for the S-curve is y = (sin((x - 1/2)*pi) + 1)/2, For an S-curve greyscale ramp, you should set NumberOfTableValues to 402 (which is 256*pi/2) to provide room for the tails of the ramp.

The equation for the linear ramp is simply y = x.

The equation for the SQRT is y = sqrt(x).

◆ SetRampToLinear()

void vtkLookupTable::SetRampToLinear ( )

inline

Set the shape of the table ramp to either S-curve, linear, or sqrt.

The default is S-curve, which tails off gradually at either end.

The equation used for the S-curve is y = (sin((x - 1/2)*pi) + 1)/2, For an S-curve greyscale ramp, you should set NumberOfTableValues to 402 (which is 256*pi/2) to provide room for the tails of the ramp.

The equation for the linear ramp is simply y = x.

The equation for the SQRT is y = sqrt(x).

Definition at line 251 of file vtkLookupTable.h.

◆ SetRampToSCurve()

void vtkLookupTable::SetRampToSCurve ( )

inline

Set the shape of the table ramp to either S-curve, linear, or sqrt.

The default is S-curve, which tails off gradually at either end.

The equation used for the S-curve is y = (sin((x - 1/2)*pi) + 1)/2, For an S-curve greyscale ramp, you should set NumberOfTableValues to 402 (which is 256*pi/2) to provide room for the tails of the ramp.

The equation for the linear ramp is simply y = x.

The equation for the SQRT is y = sqrt(x).

Definition at line 252 of file vtkLookupTable.h.

◆ SetRampToSQRT()

void vtkLookupTable::SetRampToSQRT ( )

inline

Set the shape of the table ramp to either S-curve, linear, or sqrt.

The default is S-curve, which tails off gradually at either end.

The equation used for the S-curve is y = (sin((x - 1/2)*pi) + 1)/2, For an S-curve greyscale ramp, you should set NumberOfTableValues to 402 (which is 256*pi/2) to provide room for the tails of the ramp.

The equation for the linear ramp is simply y = x.

The equation for the SQRT is y = sqrt(x).

Definition at line 253 of file vtkLookupTable.h.

◆ GetRamp()

virtual int vtkLookupTable::GetRamp ( )

virtual

Set the shape of the table ramp to either S-curve, linear, or sqrt.

The default is S-curve, which tails off gradually at either end.

The equation used for the S-curve is y = (sin((x - 1/2)*pi) + 1)/2, For an S-curve greyscale ramp, you should set NumberOfTableValues to 402 (which is 256*pi/2) to provide room for the tails of the ramp.

The equation for the linear ramp is simply y = x.

The equation for the SQRT is y = sqrt(x).

◆ SetScale()

void vtkLookupTable::SetScale ( int scale )

Set the type of scale to use, linear or logarithmic.

The default is linear. If the scale is logarithmic, then the TableRange must not cross the value zero.

◆ SetScaleToLinear()

void vtkLookupTable::SetScaleToLinear ( )

inline

Set the type of scale to use, linear or logarithmic.

The default is linear. If the scale is logarithmic, then the TableRange must not cross the value zero.

Definition at line 264 of file vtkLookupTable.h.

◆ SetScaleToLog10()

void vtkLookupTable::SetScaleToLog10 ( )

inline

Set the type of scale to use, linear or logarithmic.

The default is linear. If the scale is logarithmic, then the TableRange must not cross the value zero.

Definition at line 265 of file vtkLookupTable.h.

◆ GetScale()

virtual int vtkLookupTable::GetScale ( )

virtual

Set the type of scale to use, linear or logarithmic.

The default is linear. If the scale is logarithmic, then the TableRange must not cross the value zero.

◆ SetTableRange() [1/2]

virtual void vtkLookupTable::SetTableRange ( const double r[2] )

virtual

Set/Get the minimum/maximum scalar values for scalar mapping.

Scalar values less than minimum range value are clamped to minimum range value. Scalar values greater than maximum range value are clamped to maximum range value.

The TableRange values are only used when IndexedLookup is false.

◆ SetTableRange() [2/2]

virtual void vtkLookupTable::SetTableRange	(	double	min,
		double	max
	)

virtual

Set/Get the minimum/maximum scalar values for scalar mapping.

Scalar values less than minimum range value are clamped to minimum range value. Scalar values greater than maximum range value are clamped to maximum range value.

The TableRange values are only used when IndexedLookup is false.

◆ GetTableRange() [1/2]

virtual double * vtkLookupTable::GetTableRange ( )

virtual

Set/Get the minimum/maximum scalar values for scalar mapping.

Scalar values less than minimum range value are clamped to minimum range value. Scalar values greater than maximum range value are clamped to maximum range value.

The TableRange values are only used when IndexedLookup is false.

◆ GetTableRange() [2/2]

virtual void vtkLookupTable::GetTableRange ( double data[2] )

virtual

Set/Get the minimum/maximum scalar values for scalar mapping.

Scalar values less than minimum range value are clamped to minimum range value. Scalar values greater than maximum range value are clamped to maximum range value.

The TableRange values are only used when IndexedLookup is false.

◆ SetHueRange() [1/2]

virtual void vtkLookupTable::SetHueRange	(	double	,
		double
	)

virtual

Set the range in hue (using automatic generation).

Hue ranges between [0,1].

void vtkLookupTable::SetSaturationRange ( double [2] )

Set the range in saturation (using automatic generation).

Saturation ranges between [0,1].

◆ GetSaturationRange() [1/3]

virtual double * vtkLookupTable::GetSaturationRange ( )

virtual

Set the range in saturation (using automatic generation).

Saturation ranges between [0,1].

◆ GetSaturationRange() [2/3]

virtual void vtkLookupTable::GetSaturationRange	(	double &	,
		double &
	)

virtual

Set the range in saturation (using automatic generation).

Saturation ranges between [0,1].

◆ GetSaturationRange() [3/3]

virtual void vtkLookupTable::GetSaturationRange ( double [2] )

virtual

Set the range in saturation (using automatic generation).

Saturation ranges between [0,1].

◆ SetValueRange() [1/2]

virtual void vtkLookupTable::SetValueRange	(	double	,
		double
	)

virtual

Set the range in value (using automatic generation).

Value ranges between [0,1].

void vtkLookupTable::SetAlphaRange ( double [2] )

Set the range in alpha (using automatic generation).

Alpha ranges from [0,1].

◆ GetAlphaRange() [1/3]

virtual double * vtkLookupTable::GetAlphaRange ( )

virtual

Set the range in alpha (using automatic generation).

Alpha ranges from [0,1].

◆ GetAlphaRange() [2/3]

virtual void vtkLookupTable::GetAlphaRange	(	double &	,
		double &
	)

virtual

Set the range in alpha (using automatic generation).

Alpha ranges from [0,1].

◆ GetAlphaRange() [3/3]

virtual void vtkLookupTable::GetAlphaRange ( double [2] )

virtual

Set the range in alpha (using automatic generation).

Alpha ranges from [0,1].

◆ SetNanColor() [1/2]

virtual void vtkLookupTable::SetNanColor	(	double	,
		double	,
		double	,
		double
	)

virtual

Set the color to use when a NaN (not a number) is encountered.

This is an RGBA 4-tuple of doubles in the range [0,1].

◆ SetNanColor() [2/2]

virtual void vtkLookupTable::SetNanColor ( double [4] )

virtual

Set the color to use when a NaN (not a number) is encountered.

This is an RGBA 4-tuple of doubles in the range [0,1].

◆ GetNanColor() [1/3]

virtual double * vtkLookupTable::GetNanColor ( )

virtual

Set the color to use when a NaN (not a number) is encountered.

This is an RGBA 4-tuple of doubles in the range [0,1].

◆ GetNanColor() [2/3]

virtual void vtkLookupTable::GetNanColor	(	double &	,
		double &	,
		double &	,
		double &
	)

virtual

Set the color to use when a NaN (not a number) is encountered.

This is an RGBA 4-tuple of doubles in the range [0,1].

◆ GetNanColor() [3/3]

virtual void vtkLookupTable::GetNanColor ( double [4] )

virtual

Set the color to use when a NaN (not a number) is encountered.

This is an RGBA 4-tuple of doubles in the range [0,1].

◆ GetNanColorAsUnsignedChars()

unsigned char * vtkLookupTable::GetNanColorAsUnsignedChars ( )

Return the NanColor as a pointer to 4 unsigned chars.

This will overwrite any data returned by previous calls to MapValue.

◆ GetColorAsUnsignedChars()

static void vtkLookupTable::GetColorAsUnsignedChars	(	const double	colorIn[4],
		unsigned char	colorOut[4]
	)

static

Given an RGBA[4] color in the [0,1] range, convert it to RGBA[4] in the [0,255] range.

◆ SetBelowRangeColor() [1/2]

virtual void vtkLookupTable::SetBelowRangeColor	(	double	,
		double	,
		double	,
		double
	)

virtual

Set the color to use when a value below the range is encountered.

This is an RGBA 4-tuple of doubles in the range [0, 1].

◆ SetBelowRangeColor() [2/2]

virtual void vtkLookupTable::SetBelowRangeColor ( double [4] )

virtual

Set the color to use when a value below the range is encountered.

This is an RGBA 4-tuple of doubles in the range [0, 1].

◆ GetBelowRangeColor() [1/3]

virtual double * vtkLookupTable::GetBelowRangeColor ( )

virtual

Set the color to use when a value below the range is encountered.

This is an RGBA 4-tuple of doubles in the range [0, 1].

◆ GetBelowRangeColor() [2/3]

virtual void vtkLookupTable::GetBelowRangeColor	(	double &	,
		double &	,
		double &	,
		double &
	)

virtual

Set the color to use when a value below the range is encountered.

This is an RGBA 4-tuple of doubles in the range [0, 1].

◆ GetBelowRangeColor() [3/3]

virtual void vtkLookupTable::GetBelowRangeColor ( double [4] )

virtual

Set the color to use when a value below the range is encountered.

This is an RGBA 4-tuple of doubles in the range [0, 1].

◆ SetUseBelowRangeColor()

virtual void vtkLookupTable::SetUseBelowRangeColor ( vtkTypeBool )

virtual

Set whether the below range color should be used.

◆ GetUseBelowRangeColor()

virtual vtkTypeBool vtkLookupTable::GetUseBelowRangeColor ( )

virtual

Set whether the below range color should be used.

◆ UseBelowRangeColorOn()

virtual void vtkLookupTable::UseBelowRangeColorOn ( )

virtual

Set whether the below range color should be used.

virtual void vtkLookupTable::SetUseAboveRangeColor ( vtkTypeBool )

virtual

Set whether the above range color should be used.

◆ GetUseAboveRangeColor()

virtual vtkTypeBool vtkLookupTable::GetUseAboveRangeColor ( )

virtual

Set whether the above range color should be used.

◆ UseAboveRangeColorOn()

virtual void vtkLookupTable::UseAboveRangeColorOn ( )

virtual

Set whether the above range color should be used.

◆ UseAboveRangeColorOff()

virtual void vtkLookupTable::UseAboveRangeColorOff ( )

virtual

Set whether the above range color should be used.

◆ MapValue()

const unsigned char * vtkLookupTable::MapValue ( double v )

overridevirtual

Map one value through the lookup table, returning an RBGA[4] color.

Reimplemented from vtkScalarsToColors.

◆ GetColor()

void vtkLookupTable::GetColor	(	double	v,
		double	rgb[3]
	)

overridevirtual

Map one value through the lookup table and return the color as an RGB[3] array of doubles between 0 and 1.

Note lack of alpha.

Reimplemented from vtkScalarsToColors.

◆ GetOpacity()

double vtkLookupTable::GetOpacity ( double v )

overridevirtual

Map one value through the lookup table and return the alpha value (the opacity) as a double between 0 and 1.

Reimplemented from vtkScalarsToColors.

◆ GetIndex()

virtual vtkIdType vtkLookupTable::GetIndex ( double v )

virtual

Return the table index associated with a particular value.

Returns -1 if v is NaN.

Do not use this function when IndexedLookup is true: in that case, the set of values v may take on is exactly the integers from 0 to GetNumberOfTableValues() - 1; and v serves directly as an index into TableValues.

◆ SetNumberOfTableValues()

void vtkLookupTable::SetNumberOfTableValues ( vtkIdType number )

Specify the number of values (i.e., colors) in the lookup table.

◆ GetNumberOfTableValues()

vtkIdType vtkLookupTable::GetNumberOfTableValues ( )

inline

Specify the number of values (i.e., colors) in the lookup table.

Definition at line 408 of file vtkLookupTable.h.

◆ SetTableValue() [1/2]

virtual void vtkLookupTable::SetTableValue	(	vtkIdType	indx,
		const double	rgba[4]
	)

virtual

Directly load color into lookup table.

Use [0,1] double values for color component specification. Make sure that you've either used the Build() method or used SetNumberOfTableValues() prior to using this method.

◆ SetTableValue() [2/2]

virtual void vtkLookupTable::SetTableValue	(	vtkIdType	indx,
		double	r,
		double	g,
		double	b,
		double	a = `1.0`
	)

virtual

Directly load color into lookup table.

Use [0,1] double values for color component specification. Alpha defaults to 1 if unspecified.

◆ GetTableValue() [1/2]

double * vtkLookupTable::GetTableValue ( vtkIdType indx )

Return an RGBA color value for the given index into the lookup table.

Color components are expressed as [0,1] double values.

◆ GetTableValue() [2/2]

void vtkLookupTable::GetTableValue	(	vtkIdType	indx,
		double	rgba[4]
	)

Return an RGBA color value for the given index into the lookup table.

Color components are expressed as [0,1] double values.

◆ GetPointer()

unsigned char * vtkLookupTable::GetPointer ( vtkIdType id )

inline

Get pointer to color table data.

Format is array of unsigned char R-G-B-A...R-G-B-A.

Definition at line 441 of file vtkLookupTable.h.

◆ WritePointer()

unsigned char * vtkLookupTable::WritePointer	(	vtkIdType	id,
		int	number
	)

inline

Get pointer to data.

Useful for direct writes into object. MaxId is bumped by number (and memory allocated if necessary). Id is the location you wish to write into; number is the number of rgba values to write.

Warning: If you modify the table data via the pointer returned by this member function, you must call vtkLookupTable::BuildSpecialColors() afterwards to ensure that the special colors (below/above range and NaN value) are up-to-date.

Definition at line 571 of file vtkLookupTable.h.

◆ GetRange()

double * vtkLookupTable::GetRange ( )

inlineoverridevirtual

Sets/Gets the range of scalars which will be mapped.

This is a duplicate of Get/SetTableRange.

Reimplemented from vtkScalarsToColors.

Definition at line 460 of file vtkLookupTable.h.

◆ SetRange() [1/2]

void vtkLookupTable::SetRange	(	double	min,
		double	max
	)

inlineoverridevirtual

Sets/Gets the range of scalars which will be mapped.

This is a duplicate of Get/SetTableRange.

Reimplemented from vtkScalarsToColors.

Definition at line 461 of file vtkLookupTable.h.

◆ SetRange() [2/2]

void vtkLookupTable::SetRange ( const double rng[2] )

inlineoverridevirtual

Sets/Gets the range of scalars which will be mapped.

This is a duplicate of Get/SetTableRange.

Reimplemented from vtkScalarsToColors.

Definition at line 462 of file vtkLookupTable.h.

◆ GetLogRange()

static void vtkLookupTable::GetLogRange	(	const double	range[2],
		double	log_range[2]
	)

static

Returns the log of range in log_range.

There is a little more to this than simply taking the log10 of the two range values: we do conversion of negative ranges to positive ranges, and conversion of zero to a 'very small number'.

◆ ApplyLogScale()

static double vtkLookupTable::ApplyLogScale	(	double	v,
		const double	range[2],
		const double	log_range[2]
	)

static

Apply log to value, with appropriate constraints.

◆ SetNumberOfColors()

virtual void vtkLookupTable::SetNumberOfColors ( vtkIdType )

virtual

Set the number of colors in the lookup table.

Use SetNumberOfTableValues() instead, it can be used both before and after the table has been built whereas SetNumberOfColors() has no effect after the table has been built.

◆ GetNumberOfColors()

virtual vtkIdType vtkLookupTable::GetNumberOfColors ( )

virtual

Set the number of colors in the lookup table.

Use SetNumberOfTableValues() instead, it can be used both before and after the table has been built whereas SetNumberOfColors() has no effect after the table has been built.

◆ SetTable()

void vtkLookupTable::SetTable ( vtkUnsignedCharArray * )

Set/Get the internal table array that is used to map the scalars to colors.

The table array is an unsigned char array with 4 components representing RGBA.

◆ GetTable()

virtual vtkUnsignedCharArray * vtkLookupTable::GetTable ( )

virtual

Set/Get the internal table array that is used to map the scalars to colors.

The table array is an unsigned char array with 4 components representing RGBA.

◆ MapScalarsThroughTable2()

void vtkLookupTable::MapScalarsThroughTable2	(	void *	input,
		unsigned char *	output,
		int	inputDataType,
		int	numberOfValues,
		int	inputIncrement,
		int	outputFormat
	)

overridevirtual

Map a set of scalars through the lookup table.

This member function is thread safe.

Reimplemented from vtkScalarsToColors.

Reimplemented in vtkLookupTableWithEnabling.

◆ DeepCopy()

void vtkLookupTable::DeepCopy ( vtkScalarsToColors * obj )

overridevirtual

Copy the contents from another LookupTable.

Reimplemented from vtkScalarsToColors.

◆ UsingLogScale()

int vtkLookupTable::UsingLogScale ( )

inlineoverridevirtual

This should return 1 if the subclass is using log scale for mapping scalars to colors.

Returns 1 is scale == VTK_SCALE_LOG10.

Reimplemented from vtkScalarsToColors.

Definition at line 516 of file vtkLookupTable.h.

◆ GetNumberOfAvailableColors()

vtkIdType vtkLookupTable::GetNumberOfAvailableColors ( )

overridevirtual

Get the number of available colors for mapping to.

Reimplemented from vtkScalarsToColors.

◆ GetIndexedColor()

void vtkLookupTable::GetIndexedColor	(	vtkIdType	idx,
		double	rgba[4]
	)

overridevirtual

Return a color given an integer index.

This is used to assign colors to annotations (given an offset into the list of annotations). If the table is empty or idx < 0, then NanColor is returned.

Reimplemented from vtkScalarsToColors.

◆ ResizeTableForSpecialColors()

Common/Core/vtkLookupTable.h

Public Types

Public Member Functions

Static Public Member Functions

Static Public Attributes

Protected Member Functions

Protected Attributes

Additional Inherited Members

Detailed Description

Member Typedef Documentation

◆ Superclass

Constructor & Destructor Documentation

◆ vtkLookupTable()

◆ ~vtkLookupTable()

Member Function Documentation

◆ New()

◆ IsTypeOf()

◆ IsA()

◆ SafeDownCast()

◆ NewInstanceInternal()

◆ NewInstance()

◆ PrintSelf()

◆ IsOpaque() [1/2]

◆ IsOpaque() [2/2]

◆ Allocate()

◆ Build()

◆ ForceBuild()

◆ BuildSpecialColors()

◆ SetRamp()

◆ SetRampToLinear()

◆ SetRampToSCurve()

◆ SetRampToSQRT()

◆ GetRamp()

◆ SetScale()

◆ SetScaleToLinear()

◆ SetScaleToLog10()

◆ GetScale()

◆ SetTableRange() [1/2]

◆ SetTableRange() [2/2]

◆ GetTableRange() [1/2]

◆ GetTableRange() [2/2]

◆ SetHueRange() [1/2]

◆ SetHueRange() [2/2]

◆ GetHueRange() [1/3]

◆ GetHueRange() [2/3]

◆ GetHueRange() [3/3]

◆ SetSaturationRange() [1/2]

◆ SetSaturationRange() [2/2]

◆ GetSaturationRange() [1/3]

◆ GetSaturationRange() [2/3]

◆ GetSaturationRange() [3/3]

◆ SetValueRange() [1/2]

◆ SetValueRange() [2/2]

◆ GetValueRange() [1/3]

◆ GetValueRange() [2/3]

◆ GetValueRange() [3/3]

◆ SetAlphaRange() [1/2]

◆ SetAlphaRange() [2/2]

◆ GetAlphaRange() [1/3]

◆ GetAlphaRange() [2/3]

◆ GetAlphaRange() [3/3]

◆ SetNanColor() [1/2]

◆ SetNanColor() [2/2]

◆ GetNanColor() [1/3]

◆ GetNanColor() [2/3]

◆ GetNanColor() [3/3]

◆ GetNanColorAsUnsignedChars()

◆ GetColorAsUnsignedChars()

◆ SetBelowRangeColor() [1/2]

◆ SetBelowRangeColor() [2/2]

◆ GetBelowRangeColor() [1/3]

◆ GetBelowRangeColor() [2/3]

◆ GetBelowRangeColor() [3/3]

◆ SetUseBelowRangeColor()

◆ GetUseBelowRangeColor()

◆ UseBelowRangeColorOn()

◆ UseBelowRangeColorOff()

◆ SetAboveRangeColor() [1/2]

◆ SetAboveRangeColor() [2/2]

◆ GetAboveRangeColor() [1/3]

◆ GetAboveRangeColor() [2/3]