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// This file is generated by WOK (CPPExt).
// Please do not edit this file; modify original file instead.
// The copyright and license terms as defined for the original file apply to 
// this header file considered to be the "object code" form of the original source.

#ifndef _gp_Mat2d_HeaderFile
#define _gp_Mat2d_HeaderFile

#include <Standard.hxx>
#include <Standard_DefineAlloc.hxx>
#include <Standard_Macro.hxx>

#include <Standard_Real.hxx>
#include <Standard_Storable.hxx>
#include <Standard_Integer.hxx>
#include <Standard_Boolean.hxx>
#include <Standard_PrimitiveTypes.hxx>
class Standard_ConstructionError;
class Standard_OutOfRange;
class gp_Trsf2d;
class gp_GTrsf2d;
class gp_XY;


Standard_EXPORT const Handle(Standard_Type)& STANDARD_TYPE(gp_Mat2d);


//! Describes a two column, two row matrix. This sort of
//! object is used in various vectorial or matrix computations.
class gp_Mat2d 
{

public:

  DEFINE_STANDARD_ALLOC

  
  //! Creates  a matrix with null coefficients.
    gp_Mat2d();
  

  //! Col1, Col2 are the 2 columns of the matrix.
  Standard_EXPORT gp_Mat2d(const gp_XY& Col1, const gp_XY& Col2);
  
  //! Assigns the two coordinates of Value to the column of range
  //! Col of this matrix
  //! Raises OutOfRange if Col < 1 or Col > 2.
  Standard_EXPORT   void SetCol (const Standard_Integer Col, const gp_XY& Value) ;
  
  //! Assigns the number pairs Col1, Col2 to the two columns of   this matrix
  Standard_EXPORT   void SetCols (const gp_XY& Col1, const gp_XY& Col2) ;
  

  //! Modifies the main diagonal of the matrix.
  //! <me>.Value (1, 1) = X1
  //! <me>.Value (2, 2) = X2
  //! The other coefficients of the matrix are not modified.
      void SetDiagonal (const Standard_Real X1, const Standard_Real X2) ;
  
  //! Modifies this matrix, so that it represents the Identity matrix.
      void SetIdentity() ;
  

  //! Modifies this matrix, so that it representso a rotation. Ang is the angular
  //! value in radian of the rotation.
      void SetRotation (const Standard_Real Ang) ;
  
  //! Assigns the two coordinates of Value to the row of index Row of this matrix.
  //! Raises OutOfRange if Row < 1 or Row > 2.
  Standard_EXPORT   void SetRow (const Standard_Integer Row, const gp_XY& Value) ;
  
  //! Assigns the number pairs Row1, Row2 to the two rows of this matrix.
  Standard_EXPORT   void SetRows (const gp_XY& Row1, const gp_XY& Row2) ;
  

  //! Modifies the matrix such that it
  //! represents a scaling transformation, where S is the scale   factor :
  //! | S    0.0 |
  //! <me> =  | 0.0   S  |
      void SetScale (const Standard_Real S) ;
  
  //! Assigns <Value> to the coefficient of row Row, column Col of this matrix.
  //! Raises OutOfRange if Row < 1 or Row > 2 or Col < 1 or Col > 2
      void SetValue (const Standard_Integer Row, const Standard_Integer Col, const Standard_Real Value) ;
  
  //! Returns the column of Col index.
  //! Raises OutOfRange if Col < 1 or Col > 2
  Standard_EXPORT   gp_XY Column (const Standard_Integer Col)  const;
  
  //! Computes the determinant of the matrix.
      Standard_Real Determinant()  const;
  
  //! Returns the main diagonal of the matrix.
  Standard_EXPORT   gp_XY Diagonal()  const;
  
  //! Returns the row of index Row.
  //! Raised if Row < 1 or Row > 2
  Standard_EXPORT   gp_XY Row (const Standard_Integer Row)  const;
  
  //! Returns the coefficient of range (Row, Col)
  //! Raises OutOfRange
  //! if Row < 1 or Row > 2 or Col < 1 or Col > 2
     const  Standard_Real& Value (const Standard_Integer Row, const Standard_Integer Col)  const;
   const  Standard_Real& operator() (const Standard_Integer Row, const Standard_Integer Col)  const
{
  return Value(Row,Col);
}
  
  //! Returns the coefficient of range (Row, Col)
  //! Raises OutOfRange
  //! if Row < 1 or Row > 2 or Col < 1 or Col > 2
      Standard_Real& ChangeValue (const Standard_Integer Row, const Standard_Integer Col) ;
    Standard_Real& operator() (const Standard_Integer Row, const Standard_Integer Col) 
{
  return ChangeValue(Row,Col);
}
  

  //! Returns true if this matrix is singular (and therefore, cannot be inverted).
  //! The Gauss LU decomposition is used to invert the matrix
  //! so the matrix is considered as singular if the largest
  //! pivot found is lower or equal to Resolution from gp.
      Standard_Boolean IsSingular()  const;
  
      void Add (const gp_Mat2d& Other) ;
    void operator += (const gp_Mat2d& Other) 
{
  Add(Other);
}
  

  //! Computes the sum of this matrix and the matrix
  //! Other.for each coefficient of the matrix :
  //! <me>.Coef(i,j) + <Other>.Coef(i,j)
  //! Note:
  //! -   operator += assigns the result to this matrix, while
  //! -   operator + creates a new one.
      gp_Mat2d Added (const gp_Mat2d& Other)  const;
    gp_Mat2d operator + (const gp_Mat2d& Other)  const
{
  return Added(Other);
}
  
      void Divide (const Standard_Real Scalar) ;
    void operator /= (const Standard_Real Scalar) 
{
  Divide(Scalar);
}
  

  //! Divides all the coefficients of the matrix by a scalar.
      gp_Mat2d Divided (const Standard_Real Scalar)  const;
    gp_Mat2d operator / (const Standard_Real Scalar)  const
{
  return Divided(Scalar);
}
  
  Standard_EXPORT   void Invert() ;
  

  //! Inverses the matrix and raises exception if the matrix
  //! is singular.
      gp_Mat2d Inverted()  const;
  
      gp_Mat2d Multiplied (const gp_Mat2d& Other)  const;
    gp_Mat2d operator * (const gp_Mat2d& Other)  const
{
  return Multiplied(Other);
}
  

  //! Computes the product of two matrices <me> * <Other>
      void Multiply (const gp_Mat2d& Other) ;
  
  //! Modifies this matrix by premultiplying it by the matrix Other
  //! <me> = Other * <me>.
      void PreMultiply (const gp_Mat2d& Other) ;
  
      gp_Mat2d Multiplied (const Standard_Real Scalar)  const;
    gp_Mat2d operator * (const Standard_Real Scalar)  const
{
  return Multiplied(Scalar);
}
  

  //! Multiplies all the coefficients of the matrix by a scalar.
      void Multiply (const Standard_Real Scalar) ;
    void operator *= (const Standard_Real Scalar) 
{
  Multiply(Scalar);
}
  
  Standard_EXPORT   void Power (const Standard_Integer N) ;
  

  //! computes <me> = <me> * <me> * .......* <me>, N time.
  //! if N = 0 <me> = Identity
  //! if N < 0 <me> = <me>.Invert() *...........* <me>.Invert().
  //! If N < 0 an exception can be raised if the matrix is not
  //! inversible
      gp_Mat2d Powered (const Standard_Integer N)  const;
  
      void Subtract (const gp_Mat2d& Other) ;
    void operator -= (const gp_Mat2d& Other) 
{
  Subtract(Other);
}
  

  //! Computes for each coefficient of the matrix :
  //! <me>.Coef(i,j) - <Other>.Coef(i,j)
      gp_Mat2d Subtracted (const gp_Mat2d& Other)  const;
    gp_Mat2d operator - (const gp_Mat2d& Other)  const
{
  return Subtracted(Other);
}
  
      void Transpose() ;
  

  //! Transposes the matrix. A(j, i) -> A (i, j)
      gp_Mat2d Transposed()  const;
    Standard_Real& _CSFDB_Getgp_Mat2dmatrix(const Standard_Integer i1,const Standard_Integer i2) { return matrix[i1][i2]; }

friend class gp_Trsf2d;
friend class gp_GTrsf2d;
friend class gp_XY;


protected:




private: 


  Standard_Real matrix[2][2];


};


#include <gp_Mat2d.lxx>





#endif // _gp_Mat2d_HeaderFile