8.2/html/vtkMatrix3x3_8h_source.html

 /*=========================================================================

   Program:   Visualization Toolkit
   Module:    vtkMatrix3x3.h

   Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
   All rights reserved.
   See Copyright.txt or http://www.kitware.com/Copyright.htm for details.

      This software is distributed WITHOUT ANY WARRANTY; without even
      the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
      PURPOSE.  See the above copyright notice for more information.

 =========================================================================*/
 #ifndef vtkMatrix3x3_h
 #define vtkMatrix3x3_h

 #include "vtkCommonMathModule.h" // For export macro
 #include "vtkObject.h"

 class VTKCOMMONMATH_EXPORT vtkMatrix3x3 : public vtkObject
 {
   // Some of the methods in here have a corresponding static (class)
   // method taking a pointer to 9 doubles that constitutes a user
   // supplied matrix. This allows C++ clients to allocate double arrays
   // on the stack and manipulate them using vtkMatrix3x3 methods.
   // This is an alternative to allowing vtkMatrix3x3 instances to be
   // created on the stack (which is frowned upon) or doing lots of
   // temporary heap allocation within vtkTransform2D methods,
   // which is inefficient.

 public:
   static vtkMatrix3x3 *New();

   vtkTypeMacro(vtkMatrix3x3,vtkObject);
   void PrintSelf(ostream& os, vtkIndent indent) override;

   void DeepCopy(vtkMatrix3x3 *source)
     {vtkMatrix3x3::DeepCopy(*this->Element,source); this->Modified(); }
   static void DeepCopy(double elements[9], vtkMatrix3x3 *source)
     {vtkMatrix3x3::DeepCopy(elements,*source->Element); }
   static void DeepCopy(double elements[9], const double newElements[9]);

   void DeepCopy(const double elements[9])
     { this->DeepCopy(*this->Element,elements); this->Modified(); }

   void Zero()
     { vtkMatrix3x3::Zero(*this->Element); this->Modified(); }
   static void Zero(double elements[9]);

   void Identity()
     { vtkMatrix3x3::Identity(*this->Element); this->Modified();}
   static void Identity(double elements[9]);

   static void Invert(vtkMatrix3x3 *in, vtkMatrix3x3 *out)
     {vtkMatrix3x3::Invert(*in->Element,*out->Element); out->Modified(); }
   void Invert()
     { vtkMatrix3x3::Invert(this,this); }
   static void Invert(const double inElements[9], double outElements[9]);

   static void Transpose(vtkMatrix3x3 *in, vtkMatrix3x3 *out)
     {vtkMatrix3x3::Transpose(*in->Element,*out->Element); out->Modified(); }
   void Transpose()
     { vtkMatrix3x3::Transpose(this,this); }
   static void Transpose(const double inElements[9], double outElements[9]);

   void MultiplyPoint(const float in[3], float out[3])
     {vtkMatrix3x3::MultiplyPoint(*this->Element,in,out); }
   void MultiplyPoint(const double in[3], double out[3])
     {vtkMatrix3x3::MultiplyPoint(*this->Element,in,out); }

   static void MultiplyPoint(const double elements[9],
                             const float in[3], float out[3]);
   static void MultiplyPoint(const double elements[9],
                             const double in[3], double out[3]);

   static void Multiply3x3(vtkMatrix3x3 *a, vtkMatrix3x3 *b, vtkMatrix3x3 *c) {
     vtkMatrix3x3::Multiply3x3(*a->Element,*b->Element,*c->Element); }
   static void Multiply3x3(const double a[9], const double b[9],
                           double c[9]);

   void Adjoint(vtkMatrix3x3 *in, vtkMatrix3x3 *out)
     {vtkMatrix3x3::Adjoint(*in->Element,*out->Element);}
   static void Adjoint(const double inElements[9], double outElements[9]);

   double Determinant() {return vtkMatrix3x3::Determinant(*this->Element);}
   static double Determinant(const double elements[9]);

   void SetElement(int i, int j, double value);

   double GetElement(int i, int j) const
     {return this->Element[i][j];}

   // Descption:
   // Returns true if this matrix is equal to the identity matrix.
   bool IsIdentity();

   double * GetData() { return *this->Element; }

 protected:
   vtkMatrix3x3();
   ~vtkMatrix3x3() override;

   double Element[3][3]; // The elements of the 3x3 matrix

 private:
   vtkMatrix3x3(const vtkMatrix3x3&) = delete;
   void operator=(const vtkMatrix3x3&) = delete;
 };

 inline void vtkMatrix3x3::SetElement(int i, int j, double value)
 {
   if (this->Element[i][j] != value)
   {
     this->Element[i][j] = value;
     this->Modified();
   }
 }

 inline bool vtkMatrix3x3::IsIdentity()
 {
   double *M = *this->Element;
   if (M[0] == 1.0 && M[4] == 1.0 && M[8] == 1.0 &&
       M[1] == 0.0 && M[2] == 0.0 && M[3] == 0.0 && M[5] == 0.0 &&
       M[6] == 0.0 && M[7] == 0.0)
   {
     return true;
   }
   else
   {
     return false;
   }
 }

 #endif
vtkMatrix3x3::DeepCopy
void DeepCopy(vtkMatrix3x3 *source)
Set the elements of the matrix to the same values as the elements of the source Matrix.
Definition: vtkMatrix3x3.h:60

vtkMatrix3x3::Zero
void Zero()
Set all of the elements to zero.
Definition: vtkMatrix3x3.h:75

vtkMatrix3x3::Adjoint
void Adjoint(vtkMatrix3x3 *in, vtkMatrix3x3 *out)
Compute adjoint of the matrix and put it into out.
Definition: vtkMatrix3x3.h:130

vtkObject
abstract base class for most VTK objects
Definition: vtkObject.h:59

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

vtkMatrix3x3::Determinant
double Determinant()
Compute the determinant of the matrix and return it.
Definition: vtkMatrix3x3.h:137

vtkMatrix3x3::Transpose
static void Transpose(vtkMatrix3x3 *in, vtkMatrix3x3 *out)
Transpose the matrix and put it into out.
Definition: vtkMatrix3x3.h:99

vtkMatrix3x3::Multiply3x3
static void Multiply3x3(vtkMatrix3x3 *a, vtkMatrix3x3 *b, vtkMatrix3x3 *c)
Multiplies matrices a and b and stores the result in c (c=a*b).
Definition: vtkMatrix3x3.h:122

vtkMatrix3x3::GetElement
double GetElement(int i, int j) const
Returns the element i,j from the matrix.
Definition: vtkMatrix3x3.h:148

vtkIndent
a simple class to control print indentation
Definition: vtkIndent.h:39

vtkMatrix3x3::DeepCopy
void DeepCopy(const double elements[9])
Non-static member function.
Definition: vtkMatrix3x3.h:69

vtkMatrix3x3::Transpose
void Transpose()
Definition: vtkMatrix3x3.h:101

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

vtkMatrix3x3::SetElement
void SetElement(int i, int j, double value)
Sets the element i,j in the matrix.
Definition: vtkMatrix3x3.h:171

vtkMatrix3x3::GetData
double * GetData()
Return a pointer to the first element of the matrix (double[9]).
Definition: vtkMatrix3x3.h:158

source
boost::graph_traits< vtkGraph * >::vertex_descriptor source(boost::graph_traits< vtkGraph * >::edge_descriptor e, vtkGraph *)
Definition: vtkBoostGraphAdapter.h:825

vtkX3D::value
Definition: vtkX3D.h:220

vtkMatrix3x3::Element
double Element[3][3]
Definition: vtkMatrix3x3.h:164

vtkMatrix3x3::Identity
void Identity()
Set equal to Identity matrix.
Definition: vtkMatrix3x3.h:82

vtkMatrix3x3::IsIdentity
bool IsIdentity()
Definition: vtkMatrix3x3.h:180

vtkMatrix3x3::Invert
static void Invert(vtkMatrix3x3 *in, vtkMatrix3x3 *out)
Matrix Inversion (adapted from Richard Carling in "Graphics Gems," Academic Press, 1990).
Definition: vtkMatrix3x3.h:90

vtkMatrix3x3::DeepCopy
static void DeepCopy(double elements[9], vtkMatrix3x3 *source)
Definition: vtkMatrix3x3.h:62

vtkMatrix3x3::Invert
void Invert()
Definition: vtkMatrix3x3.h:92

vtkMatrix3x3::MultiplyPoint
void MultiplyPoint(const float in[3], float out[3])
Multiply a homogeneous coordinate by this matrix, i.e.
Definition: vtkMatrix3x3.h:109

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

vtkObject.h

vtkMatrix3x3
represent and manipulate 3x3 transformation matrices
Definition: vtkMatrix3x3.h:36

vtkMatrix3x3::MultiplyPoint
void MultiplyPoint(const double in[3], double out[3])
Definition: vtkMatrix3x3.h:111