/usr/include/oce/math_Vector.hxx is in liboce-foundation-dev 0.17.2-2.
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// Copyright (c) 1999-2014 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// This library is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License version 2.1 as published
// by the Free Software Foundation, with special exception defined in the file
// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
// distribution for complete text of the license and disclaimer of any warranty.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.
#ifndef _math_Vector_HeaderFile
#define _math_Vector_HeaderFile
#include <math_SingleTab.hxx>
class Standard_DimensionError;
class Standard_DivideByZero;
class Standard_RangeError;
class Standard_NullValue;
class math_Matrix;
//! This class implements the real vector abstract data type.
//! Vectors can have an arbitrary range which must be defined at
//! the declaration and cannot be changed after this declaration.
//! @code
//! math_Vector V1(-3, 5); // a vector with range [-3..5]
//! @endcode
//!
//! Vector are copied through assignement :
//! @code
//! math_Vector V2( 1, 9);
//! ....
//! V2 = V1;
//! V1(1) = 2.0; // the vector V2 will not be modified.
//! @endcode
//!
//! The Exception RangeError is raised when trying to access outside
//! the range of a vector :
//! @code
//! V1(11) = 0.0 // --> will raise RangeError;
//! @endcode
//!
//! The Exception DimensionError is raised when the dimensions of two
//! vectors are not compatible :
//! @code
//! math_Vector V3(1, 2);
//! V3 = V1; // --> will raise DimensionError;
//! V1.Add(V3) // --> will raise DimensionError;
//! @endcode
class math_Vector
{
public:
DEFINE_STANDARD_ALLOC
//! Contructs a non-initialized vector in the range [theLower..theUpper]
//! "theLower" and "theUpper" are the indexes of the lower and upper bounds of the constructed vector.
Standard_EXPORT math_Vector(const Standard_Integer theLower, const Standard_Integer theUpper);
//! Contructs a vector in the range [theLower..theUpper]
//! whose values are all initialized with the value "theInitialValue"
Standard_EXPORT math_Vector(const Standard_Integer theLower, const Standard_Integer theUpper, const Standard_Real theInitialValue);
//! Constructs a vector in the range [theLower..theUpper]
//! with the "c array" theTab.
Standard_EXPORT math_Vector(const Standard_Address theTab, const Standard_Integer theLower, const Standard_Integer theUpper);
//! Initialize all the elements of a vector with "theInitialValue".
Standard_EXPORT void Init(const Standard_Real theInitialValue);
//! Constructs a copy for initialization.
//! An exception is raised if the lengths of the vectors are different.
Standard_EXPORT math_Vector(const math_Vector& theOther);
//! Returns the length of a vector
inline Standard_Integer Length() const
{
return UpperIndex - LowerIndex +1;
}
//! Returns the value of the theLower index of a vector.
inline Standard_Integer Lower() const
{
return LowerIndex;
}
//! Returns the value of the theUpper index of a vector.
inline Standard_Integer Upper() const
{
return UpperIndex;
}
//! Returns the value or the square of the norm of this vector.
Standard_EXPORT Standard_Real Norm() const;
//! Returns the value of the square of the norm of a vector.
Standard_EXPORT Standard_Real Norm2() const;
//! Returns the value of the "Index" of the maximum element of a vector.
Standard_EXPORT Standard_Integer Max() const;
//! Returns the value of the "Index" of the minimum element of a vector.
Standard_EXPORT Standard_Integer Min() const;
//! Normalizes this vector (the norm of the result
//! is equal to 1.0) and assigns the result to this vector
//! Exceptions
//! Standard_NullValue if this vector is null (i.e. if its norm is
//! less than or equal to Standard_Real::RealEpsilon().
Standard_EXPORT void Normalize();
//! Normalizes this vector (the norm of the result
//! is equal to 1.0) and creates a new vector
//! Exceptions
//! Standard_NullValue if this vector is null (i.e. if its norm is
//! less than or equal to Standard_Real::RealEpsilon().
Standard_EXPORT math_Vector Normalized() const;
//! Inverts this vector and assigns the result to this vector.
Standard_EXPORT void Invert();
//! Inverts this vector and creates a new vector.
Standard_EXPORT math_Vector Inverse() const;
//! sets a vector from "theI1" to "theI2" to the vector "theV";
//! An exception is raised if "theI1" is less than "LowerIndex" or "theI2" is greater than "UpperIndex" or "theI1" is greater than "theI2".
//! An exception is raised if "theI2-theI1+1" is different from the "Length" of "theV".
Standard_EXPORT void Set(const Standard_Integer theI1, const Standard_Integer theI2, const math_Vector& theV);
//!Creates a new vector by inverting the values of this vector
//! between indexes "theI1" and "theI2".
//! If the values of this vector were (1., 2., 3., 4.,5., 6.),
//! by slicing it between indexes 2 and 5 the values
//! of the resulting vector are (1., 5., 4., 3., 2., 6.)
Standard_EXPORT math_Vector Slice(const Standard_Integer theI1, const Standard_Integer theI2) const;
//! returns the product of a vector and a real value.
Standard_EXPORT void Multiply(const Standard_Real theRight);
void operator *=(const Standard_Real theRight)
{
Multiply(theRight);
}
//! returns the product of a vector and a real value.
Standard_EXPORT math_Vector Multiplied(const Standard_Real theRight) const;
math_Vector operator*(const Standard_Real theRight) const
{
return Multiplied(theRight);
}
//! returns the product of a vector and a real value.
Standard_EXPORT math_Vector TMultiplied(const Standard_Real theRight) const;
friend inline math_Vector operator* (const Standard_Real theLeft, const math_Vector& theRight)
{
return theRight.Multiplied(theLeft);
}
//! divides a vector by the value "theRight".
//! An exception is raised if "theRight" = 0.
Standard_EXPORT void Divide(const Standard_Real theRight);
void operator /=(const Standard_Real theRight)
{
Divide(theRight);
}
//! divides a vector by the value "theRight".
//! An exception is raised if "theRight" = 0.
Standard_EXPORT math_Vector Divided(const Standard_Real theRight) const;
math_Vector operator/(const Standard_Real theRight) const
{
return Divided(theRight);
}
//! adds the vector "theRight" to a vector.
//! An exception is raised if the vectors have not the same length.
//! Warning
//! In order to avoid time-consuming copying of vectors, it
//! is preferable to use operator += or the function Add whenever possible.
Standard_EXPORT void Add(const math_Vector& theRight);
void operator +=(const math_Vector& theRight)
{
Add(theRight);
}
//! adds the vector theRight to a vector.
//! An exception is raised if the vectors have not the same length.
//! An exception is raised if the lengths are not equal.
Standard_EXPORT math_Vector Added(const math_Vector& theRight) const;
math_Vector operator+(const math_Vector& theRight) const
{
return Added(theRight);
}
//! sets a vector to the product of the vector "theLeft"
//! with the matrix "theRight".
Standard_EXPORT void Multiply(const math_Vector& theLeft, const math_Matrix& theRight);
//!sets a vector to the product of the matrix "theLeft"
//! with the vector "theRight".
Standard_EXPORT void Multiply(const math_Matrix& theLeft, const math_Vector& theRight);
//! sets a vector to the product of the transpose
//! of the matrix "theTLeft" by the vector "theRight".
Standard_EXPORT void TMultiply(const math_Matrix& theTLeft, const math_Vector& theRight);
//! sets a vector to the product of the vector
//! "theLeft" by the transpose of the matrix "theTRight".
Standard_EXPORT void TMultiply(const math_Vector& theLeft, const math_Matrix& theTRight);
//! sets a vector to the sum of the vector "theLeft"
//! and the vector "theRight".
//! An exception is raised if the lengths are different.
Standard_EXPORT void Add(const math_Vector& theLeft, const math_Vector& theRight);
//! sets a vector to the Subtraction of the
//! vector theRight from the vector theLeft.
//! An exception is raised if the vectors have not the same length.
//! Warning
//! In order to avoid time-consuming copying of vectors, it
//! is preferable to use operator -= or the function
//! Subtract whenever possible.
Standard_EXPORT void Subtract(const math_Vector& theLeft,const math_Vector& theRight);
//! accesses (in read or write mode) the value of index "theNum" of a vector.
inline Standard_Real& Value(const Standard_Integer theNum) const
{
Standard_RangeError_Raise_if(theNum < LowerIndex || theNum > UpperIndex, " ");
return Array(theNum);
}
Standard_Real& operator()(const Standard_Integer theNum) const
{
return Value(theNum);
}
//! Initialises a vector by copying "theOther".
//! An exception is raised if the Lengths are differents.
Standard_EXPORT math_Vector& Initialized(const math_Vector& theOther);
math_Vector& operator=(const math_Vector& theOther)
{
return Initialized(theOther);
}
//! returns the inner product of 2 vectors.
//! An exception is raised if the lengths are not equal.
Standard_EXPORT Standard_Real Multiplied(const math_Vector& theRight) const;
Standard_Real operator*(const math_Vector& theRight) const
{
return Multiplied(theRight);
}
//! returns the product of a vector by a matrix.
Standard_EXPORT math_Vector Multiplied(const math_Matrix& theRight) const;
math_Vector operator*(const math_Matrix& theRight) const
{
return Multiplied(theRight);
}
//! returns the opposite of a vector.
Standard_EXPORT math_Vector Opposite();
math_Vector operator-()
{
return Opposite();
}
//! returns the subtraction of "theRight" from "me".
//! An exception is raised if the vectors have not the same length.
Standard_EXPORT void Subtract(const math_Vector& theRight);
void operator-=(const math_Vector& theRight)
{
Subtract(theRight);
}
//! returns the subtraction of "theRight" from "me".
//! An exception is raised if the vectors have not the same length.
Standard_EXPORT math_Vector Subtracted(const math_Vector& theRight) const;
math_Vector operator-(const math_Vector& theRight) const
{
return Subtracted(theRight);
}
//! returns the multiplication of a real by a vector.
//! "me" = "theLeft" * "theRight"
Standard_EXPORT void Multiply(const Standard_Real theLeft,const math_Vector& theRight);
//! Prints information on the current state of the object.
//! Is used to redefine the operator <<.
Standard_EXPORT void Dump(Standard_OStream& theO) const;
friend inline Standard_OStream& operator<<(Standard_OStream& theO, const math_Vector& theVec)
{
theVec.Dump(theO);
return theO;
}
friend class math_Matrix;
protected:
//! Is used internally to set the "theLower" value of the vector.
void SetLower(const Standard_Integer theLower);
private:
Standard_Integer LowerIndex;
Standard_Integer UpperIndex;
math_SingleTab<Standard_Real> Array;
};
#endif
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