VTK
vtkColorTransferFunction.h
Go to the documentation of this file.
1 /*=========================================================================
2 
3  Program: Visualization Toolkit
4  Module: vtkColorTransferFunction.h
5 
6  Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
7  All rights reserved.
8  See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
9 
10  This software is distributed WITHOUT ANY WARRANTY; without even
11  the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
12  PURPOSE. See the above copyright notice for more information.
13 
14 =========================================================================*/
36 #ifndef vtkColorTransferFunction_h
37 #define vtkColorTransferFunction_h
38 
39 #include "vtkRenderingCoreModule.h" // For export macro
40 #include "vtkScalarsToColors.h"
41 
42 class vtkColorTransferFunctionInternals;
43 
44 #define VTK_CTF_RGB 0
45 #define VTK_CTF_HSV 1
46 #define VTK_CTF_LAB 2
47 #define VTK_CTF_DIVERGING 3
48 #define VTK_CTF_LAB_CIEDE2000 4
49 
50 #define VTK_CTF_LINEAR 0
51 #define VTK_CTF_LOG10 1
52 
53 class VTKRENDERINGCORE_EXPORT vtkColorTransferFunction : public vtkScalarsToColors
54 {
55 public:
56  static vtkColorTransferFunction *New();
58  void DeepCopy( vtkScalarsToColors *f ) override;
59  void ShallowCopy( vtkColorTransferFunction *f );
60 
64  void PrintSelf(ostream& os, vtkIndent indent) override;
65 
69  int GetSize();
70 
72 
78  int AddRGBPoint( double x, double r, double g, double b );
79  int AddRGBPoint( double x, double r, double g, double b,
80  double midpoint, double sharpness );
81  int AddHSVPoint( double x, double h, double s, double v );
82  int AddHSVPoint( double x, double h, double s, double v,
83  double midpoint, double sharpness );
84  int RemovePoint( double x );
86 
88 
92  void AddRGBSegment( double x1, double r1, double g1, double b1,
93  double x2, double r2, double g2, double b2 );
94  void AddHSVSegment( double x1, double h1, double s1, double v1,
95  double x2, double h2, double s2, double v2 );
97 
101  void RemoveAllPoints();
102 
106  double *GetColor(double x) VTK_SIZEHINT(3) {
107  return vtkScalarsToColors::GetColor(x); }
108  void GetColor(double x, double rgb[3]) override;
109 
111 
114  double GetRedValue( double x );
115  double GetGreenValue( double x );
116  double GetBlueValue( double x );
118 
120 
125  int GetNodeValue( int index, double val[6] );
126  int SetNodeValue( int index, double val[6] );
128 
132  const unsigned char *MapValue(double v) override;
133 
135 
138  double* GetRange() VTK_SIZEHINT(2) override { return this->Range; }
139  virtual void GetRange(double& arg1, double& arg2)
140  {
141  arg1 = this->Range[0];
142  arg2 = this->Range[1];
143  }
144  virtual void GetRange(double _arg[2])
145  {
146  this->GetRange(_arg[0],_arg[1]);
147  }
149 
155  int AdjustRange(double range[2]);
156 
158 
164  void GetTable( double x1, double x2, int n, double* table );
165  void GetTable( double x1, double x2, int n, float* table );
166  const unsigned char *GetTable( double x1, double x2, int n );
168 
178  void BuildFunctionFromTable( double x1, double x2, int size, double *table );
179 
181 
189  vtkSetClampMacro( Clamping, vtkTypeBool, 0, 1 );
190  vtkGetMacro( Clamping, vtkTypeBool );
191  vtkBooleanMacro( Clamping, vtkTypeBool );
193 
195 
206  vtkSetClampMacro(ColorSpace, int, VTK_CTF_RGB, VTK_CTF_LAB_CIEDE2000);
207  void SetColorSpaceToRGB(){this->SetColorSpace(VTK_CTF_RGB);}
208  void SetColorSpaceToHSV(){this->SetColorSpace(VTK_CTF_HSV);}
209  void SetColorSpaceToLab(){this->SetColorSpace(VTK_CTF_LAB);}
210  void SetColorSpaceToLabCIEDE2000() { this->SetColorSpace(VTK_CTF_LAB_CIEDE2000); }
211  void SetColorSpaceToDiverging(){this->SetColorSpace(VTK_CTF_DIVERGING);}
212  vtkGetMacro( ColorSpace, int );
213  vtkSetMacro(HSVWrap, vtkTypeBool);
214  vtkGetMacro(HSVWrap, vtkTypeBool);
215  vtkBooleanMacro(HSVWrap, vtkTypeBool);
217 
219 
224  vtkSetMacro(Scale,int);
225  void SetScaleToLinear() { this->SetScale(VTK_CTF_LINEAR); }
226  void SetScaleToLog10() { this->SetScale(VTK_CTF_LOG10); }
227  vtkGetMacro(Scale,int);
229 
231 
236  vtkSetVector3Macro(NanColor, double);
237  vtkGetVector3Macro(NanColor, double);
239 
241 
245  vtkSetVector3Macro(BelowRangeColor, double);
246  vtkGetVector3Macro(BelowRangeColor, double);
248 
250 
253  vtkSetMacro(UseBelowRangeColor, vtkTypeBool);
254  vtkGetMacro(UseBelowRangeColor, vtkTypeBool);
255  vtkBooleanMacro(UseBelowRangeColor, vtkTypeBool);
257 
259 
263  vtkSetVector3Macro(AboveRangeColor, double);
264  vtkGetVector3Macro(AboveRangeColor, double);
266 
268 
271  vtkSetMacro(UseAboveRangeColor, vtkTypeBool);
272  vtkGetMacro(UseAboveRangeColor, vtkTypeBool);
273  vtkBooleanMacro(UseAboveRangeColor, vtkTypeBool);
275 
283  double* GetDataPointer();
284 
290  void FillFromDataPointer(int n, double* ptr);
291 
295  void MapScalarsThroughTable2(void *input, unsigned char *output,
296  int inputDataType, int numberOfValues,
297  int inputIncrement, int outputIncrement) override;
298 
300 
304  vtkSetMacro(AllowDuplicateScalars, vtkTypeBool);
305  vtkGetMacro(AllowDuplicateScalars, vtkTypeBool);
306  vtkBooleanMacro(AllowDuplicateScalars, vtkTypeBool);
308 
313 
320  void GetIndexedColor(vtkIdType idx, double rgba[4]) override;
321 
326  int EstimateMinNumberOfSamples(double const & x1, double const & x2);
327 
328 protected:
330  ~vtkColorTransferFunction() override;
331 
332  vtkColorTransferFunctionInternals *Internal;
333 
341 
346 
351 
355  int Scale;
356 
360  double NanColor[3];
361 
365  double BelowRangeColor[3];
366 
371 
375  double AboveRangeColor[3];
376 
381 
385  double* Function;
386 
390  double Range[2];
391 
395  unsigned char UnsignedCharRGBAValue[4];
396 
401 
403  unsigned char *Table;
404 
410 
415  void SetRange(double, double) override {}
416  void SetRange(const double rng[2]) override {this->SetRange(rng[0],rng[1]);}
417 
423  void SortAndUpdateRange();
424 
429  bool UpdateRange();
430 
435  void MovePoint(double oldX, double newX);
436 
440  double FindMinimumXDistance();
441 
442 private:
444  void operator=(const vtkColorTransferFunction&) = delete;
445 };
446 
447 #endif
int Scale
The color interpolation scale (linear or logarithmic).
#define VTK_CTF_HSV
record modification and/or execution time
Definition: vtkTimeStamp.h:32
void SetScaleToLinear()
Set the type of scale to use, linear or logarithmic.
virtual double * GetRange()
Sets/Gets the range of scalars that will be mapped.
virtual void MapScalarsThroughTable2(void *input, unsigned char *output, int inputDataType, int numberOfValues, int inputIncrement, int outputFormat)
An internal method typically not used in applications.
int vtkIdType
Definition: vtkType.h:345
#define VTK_CTF_LAB
void SetRange(double, double) override
Set the range of scalars being mapped.
vtkColorTransferFunctionInternals * Internal
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 b...
int vtkTypeBool
Definition: vtkABI.h:69
Superclass for mapping scalar values to colors.
static vtkScalarsToColors * New()
#define VTK_CTF_LINEAR
double * GetColor(double x)
Returns an RGB color for the specified scalar value.
void SetColorSpaceToLab()
Set/Get the color space used for interpolation: RGB, HSV, CIELAB, or Diverging.
a simple class to control print indentation
Definition: vtkIndent.h:33
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...
#define VTK_CTF_LOG10
void PrintSelf(ostream &os, vtkIndent indent) override
Methods invoked by print to print information about the object including superclasses.
vtkTypeBool HSVWrap
Specify if HSV is wrap or not.
void SetColorSpaceToRGB()
Set/Get the color space used for interpolation: RGB, HSV, CIELAB, or Diverging.
virtual void GetRange(double _arg[2])
Returns min and max position of all function points.
vtkTypeBool AllowDuplicateScalars
If on, the same scalar value may have more than one node assigned to it.
vtkTypeBool UseBelowRangeColor
Flag indicating whether below-range color should be used.
#define VTK_SIZEHINT(...)
double * GetRange() override
Returns min and max position of all function points.
vtkTypeBool UseAboveRangeColor
Flag indicating whether below-range color should be used.
virtual void GetRange(double &arg1, double &arg2)
Returns min and max position of all function points.
void SetColorSpaceToDiverging()
Set/Get the color space used for interpolation: RGB, HSV, CIELAB, or Diverging.
#define VTK_CTF_LAB_CIEDE2000
Defines a transfer function for mapping a property to an RGB color value.
virtual void GetIndexedColor(vtkIdType i, double rgba[4])
Get the "indexed color" assigned to an index.
int TableSize
Temporary storage for the size of the table.
vtkTypeBool Clamping
Determines the function value outside of defined points Zero = always return 0.0 outside of defined p...
double * Function
Temporary array to store data from the nodes.
void SetScaleToLog10()
Set the type of scale to use, linear or logarithmic.
virtual void DeepCopy(vtkScalarsToColors *o)
Copy the contents from another object.
void SetColorSpaceToHSV()
Set/Get the color space used for interpolation: RGB, HSV, CIELAB, or Diverging.
void SetRange(const double rng[2]) override
Sets/Gets the range of scalars that will be mapped.
#define VTK_CTF_DIVERGING
int ColorSpace
The color space in which interpolation is performed.
virtual vtkIdType GetNumberOfAvailableColors()
Get the number of available colors for mapping to.
#define VTK_CTF_RGB
void SetColorSpaceToLabCIEDE2000()
Set/Get the color space used for interpolation: RGB, HSV, CIELAB, or Diverging.