#ifndef __MATH_POLYNOMIAL_H__ #define __MATH_POLYNOMIAL_H__ /* =============================================================================== Polynomial of arbitrary degree with real coefficients. =============================================================================== */ class idPolynomial { public: idPolynomial( void ); explicit idPolynomial( int d ); explicit idPolynomial( float a, float b ); explicit idPolynomial( float a, float b, float c ); explicit idPolynomial( float a, float b, float c, float d ); explicit idPolynomial( float a, float b, float c, float d, float e ); float operator[]( int index ) const; float & operator[]( int index ); idPolynomial operator-() const; idPolynomial & operator=( const idPolynomial &p ); idPolynomial operator+( const idPolynomial &p ) const; idPolynomial operator-( const idPolynomial &p ) const; idPolynomial operator*( const float s ) const; idPolynomial operator/( const float s ) const; idPolynomial & operator+=( const idPolynomial &p ); idPolynomial & operator-=( const idPolynomial &p ); idPolynomial & operator*=( const float s ); idPolynomial & operator/=( const float s ); bool Compare( const idPolynomial &p ) const; // exact compare, no epsilon bool Compare( const idPolynomial &p, const float epsilon ) const;// compare with epsilon bool operator==( const idPolynomial &p ) const; // exact compare, no epsilon bool operator!=( const idPolynomial &p ) const; // exact compare, no epsilon void Zero( void ); void Zero( int d ); int GetDimension( void ) const; // get the degree of the polynomial int GetDegree( void ) const; // get the degree of the polynomial float GetValue( const float x ) const; // evaluate the polynomial with the given real value idComplex GetValue( const idComplex &x ) const; // evaluate the polynomial with the given complex value idPolynomial GetDerivative( void ) const; // get the first derivative of the polynomial idPolynomial GetAntiDerivative( void ) const; // get the anti derivative of the polynomial int GetRoots( idComplex *roots ) const; // get all roots int GetRoots( float *roots ) const; // get the real roots static int GetRoots1( float a, float b, float *roots ); static int GetRoots2( float a, float b, float c, float *roots ); static int GetRoots3( float a, float b, float c, float d, float *roots ); static int GetRoots4( float a, float b, float c, float d, float e, float *roots ); const float * ToFloatPtr( void ) const; float * ToFloatPtr( void ); const char * ToString( int precision = 2 ) const; static void Test( void ); private: int degree; int allocated; float * coefficient; void Resize( int d, bool keep ); int Laguer( const idComplex *coef, const int degree, idComplex &r ) const; }; ID_INLINE idPolynomial::idPolynomial( void ) { degree = -1; allocated = 0; coefficient = NULL; } ID_INLINE idPolynomial::idPolynomial( int d ) { degree = -1; allocated = 0; coefficient = NULL; Resize( d, false ); } ID_INLINE idPolynomial::idPolynomial( float a, float b ) { degree = -1; allocated = 0; coefficient = NULL; Resize( 1, false ); coefficient[0] = b; coefficient[1] = a; } ID_INLINE idPolynomial::idPolynomial( float a, float b, float c ) { degree = -1; allocated = 0; coefficient = NULL; Resize( 2, false ); coefficient[0] = c; coefficient[1] = b; coefficient[2] = a; } ID_INLINE idPolynomial::idPolynomial( float a, float b, float c, float d ) { degree = -1; allocated = 0; coefficient = NULL; Resize( 3, false ); coefficient[0] = d; coefficient[1] = c; coefficient[2] = b; coefficient[3] = a; } ID_INLINE idPolynomial::idPolynomial( float a, float b, float c, float d, float e ) { degree = -1; allocated = 0; coefficient = NULL; Resize( 4, false ); coefficient[0] = e; coefficient[1] = d; coefficient[2] = c; coefficient[3] = b; coefficient[4] = a; } ID_INLINE float idPolynomial::operator[]( int index ) const { assert( index >= 0 && index <= degree ); return coefficient[ index ]; } ID_INLINE float& idPolynomial::operator[]( int index ) { assert( index >= 0 && index <= degree ); return coefficient[ index ]; } ID_INLINE idPolynomial idPolynomial::operator-() const { int i; idPolynomial n; n = *this; for ( i = 0; i <= degree; i++ ) { n[i] = -n[i]; } return n; } ID_INLINE idPolynomial &idPolynomial::operator=( const idPolynomial &p ) { Resize( p.degree, false ); for ( int i = 0; i <= degree; i++ ) { coefficient[i] = p.coefficient[i]; } return *this; } ID_INLINE idPolynomial idPolynomial::operator+( const idPolynomial &p ) const { int i; idPolynomial n; if ( degree > p.degree ) { n.Resize( degree, false ); for ( i = 0; i <= p.degree; i++ ) { n.coefficient[i] = coefficient[i] + p.coefficient[i]; } for ( ; i <= degree; i++ ) { n.coefficient[i] = coefficient[i]; } n.degree = degree; } else if ( p.degree > degree ) { n.Resize( p.degree, false ); for ( i = 0; i <= degree; i++ ) { n.coefficient[i] = coefficient[i] + p.coefficient[i]; } for ( ; i <= p.degree; i++ ) { n.coefficient[i] = p.coefficient[i]; } n.degree = p.degree; } else { n.Resize( degree, false ); n.degree = 0; for ( i = 0; i <= degree; i++ ) { n.coefficient[i] = coefficient[i] + p.coefficient[i]; if ( n.coefficient[i] != 0.0f ) { n.degree = i; } } } return n; } ID_INLINE idPolynomial idPolynomial::operator-( const idPolynomial &p ) const { int i; idPolynomial n; if ( degree > p.degree ) { n.Resize( degree, false ); for ( i = 0; i <= p.degree; i++ ) { n.coefficient[i] = coefficient[i] - p.coefficient[i]; } for ( ; i <= degree; i++ ) { n.coefficient[i] = coefficient[i]; } n.degree = degree; } else if ( p.degree >= degree ) { n.Resize( p.degree, false ); for ( i = 0; i <= degree; i++ ) { n.coefficient[i] = coefficient[i] - p.coefficient[i]; } for ( ; i <= p.degree; i++ ) { n.coefficient[i] = - p.coefficient[i]; } n.degree = p.degree; } else { n.Resize( degree, false ); n.degree = 0; for ( i = 0; i <= degree; i++ ) { n.coefficient[i] = coefficient[i] - p.coefficient[i]; if ( n.coefficient[i] != 0.0f ) { n.degree = i; } } } return n; } ID_INLINE idPolynomial idPolynomial::operator*( const float s ) const { idPolynomial n; if ( s == 0.0f ) { n.degree = 0; } else { n.Resize( degree, false ); for ( int i = 0; i <= degree; i++ ) { n.coefficient[i] = coefficient[i] * s; } } return n; } ID_INLINE idPolynomial idPolynomial::operator/( const float s ) const { float invs; idPolynomial n; assert( s != 0.0f ); n.Resize( degree, false ); invs = 1.0f / s; for ( int i = 0; i <= degree; i++ ) { n.coefficient[i] = coefficient[i] * invs; } return n; } ID_INLINE idPolynomial &idPolynomial::operator+=( const idPolynomial &p ) { int i; if ( degree > p.degree ) { for ( i = 0; i <= p.degree; i++ ) { coefficient[i] += p.coefficient[i]; } } else if ( p.degree > degree ) { Resize( p.degree, true ); for ( i = 0; i <= degree; i++ ) { coefficient[i] += p.coefficient[i]; } for ( ; i <= p.degree; i++ ) { coefficient[i] = p.coefficient[i]; } } else { for ( i = 0; i <= degree; i++ ) { coefficient[i] += p.coefficient[i]; if ( coefficient[i] != 0.0f ) { degree = i; } } } return *this; } ID_INLINE idPolynomial &idPolynomial::operator-=( const idPolynomial &p ) { int i; if ( degree > p.degree ) { for ( i = 0; i <= p.degree; i++ ) { coefficient[i] -= p.coefficient[i]; } } else if ( p.degree > degree ) { Resize( p.degree, true ); for ( i = 0; i <= degree; i++ ) { coefficient[i] -= p.coefficient[i]; } for ( ; i <= p.degree; i++ ) { coefficient[i] = - p.coefficient[i]; } } else { for ( i = 0; i <= degree; i++ ) { coefficient[i] -= p.coefficient[i]; if ( coefficient[i] != 0.0f ) { degree = i; } } } return *this; } ID_INLINE idPolynomial &idPolynomial::operator*=( const float s ) { if ( s == 0.0f ) { degree = 0; } else { for ( int i = 0; i <= degree; i++ ) { coefficient[i] *= s; } } return *this; } ID_INLINE idPolynomial &idPolynomial::operator/=( const float s ) { float invs; assert( s != 0.0f ); invs = 1.0f / s; for ( int i = 0; i <= degree; i++ ) { coefficient[i] = invs; } return *this;; } ID_INLINE bool idPolynomial::Compare( const idPolynomial &p ) const { if ( degree != p.degree ) { return false; } for ( int i = 0; i <= degree; i++ ) { if ( coefficient[i] != p.coefficient[i] ) { return false; } } return true; } ID_INLINE bool idPolynomial::Compare( const idPolynomial &p, const float epsilon ) const { if ( degree != p.degree ) { return false; } for ( int i = 0; i <= degree; i++ ) { if ( idMath::Fabs( coefficient[i] - p.coefficient[i] ) > epsilon ) { return false; } } return true; } ID_INLINE bool idPolynomial::operator==( const idPolynomial &p ) const { return Compare( p ); } ID_INLINE bool idPolynomial::operator!=( const idPolynomial &p ) const { return !Compare( p ); } ID_INLINE void idPolynomial::Zero( void ) { degree = 0; } ID_INLINE void idPolynomial::Zero( int d ) { Resize( d, false ); for ( int i = 0; i <= degree; i++ ) { coefficient[i] = 0.0f; } } ID_INLINE int idPolynomial::GetDimension( void ) const { return degree; } ID_INLINE int idPolynomial::GetDegree( void ) const { return degree; } ID_INLINE float idPolynomial::GetValue( const float x ) const { float y, z; y = coefficient[0]; z = x; for ( int i = 1; i <= degree; i++ ) { y += coefficient[i] * z; z *= x; } return y; } ID_INLINE idComplex idPolynomial::GetValue( const idComplex &x ) const { idComplex y, z; y.Set( coefficient[0], 0.0f ); z = x; for ( int i = 1; i <= degree; i++ ) { y += coefficient[i] * z; z *= x; } return y; } ID_INLINE idPolynomial idPolynomial::GetDerivative( void ) const { idPolynomial n; if ( degree == 0 ) { return n; } n.Resize( degree - 1, false ); for ( int i = 1; i <= degree; i++ ) { n.coefficient[i-1] = i * coefficient[i]; } } ID_INLINE idPolynomial idPolynomial::GetAntiDerivative( void ) const { idPolynomial n; if ( degree == 0 ) { return n; } n.Resize( degree + 1, false ); n.coefficient[0] = 0.0f; for ( int i = 0; i <= degree; i++ ) { n.coefficient[i+1] = coefficient[i] / ( i + 1 ); } } ID_INLINE int idPolynomial::GetRoots1( float a, float b, float *roots ) { assert( a != 0.0f ); roots[0] = - b / a; return 1; } ID_INLINE int idPolynomial::GetRoots2( float a, float b, float c, float *roots ) { float inva, ds; if ( a != 1.0f ) { assert( a != 0.0f ); inva = 1.0f / a; c *= inva; b *= inva; } ds = b * b - 4.0f * c; if ( ds < 0.0f ) { return 0; } else if ( ds > 0.0f ) { ds = idMath::Sqrt( ds ); roots[0] = 0.5f * ( -b - ds ); roots[1] = 0.5f * ( -b + ds ); return 2; } else { roots[0] = 0.5f * -b; return 1; } } ID_INLINE int idPolynomial::GetRoots3( float a, float b, float c, float d, float *roots ) { float inva, f, g, halfg, ofs, ds, dist, angle, cs, ss, t; if ( a != 1.0f ) { assert( a != 0.0f ); inva = 1.0f / a; d *= inva; c *= inva; b *= inva; } f = ( 1.0f / 3.0f ) * ( 3.0f * c - b * b ); g = ( 1.0f / 27.0f ) * ( 2.0f * b * b * b - 9.0f * c * b + 27.0f * d ); halfg = 0.5f * g; ofs = ( 1.0f / 3.0f ) * b; ds = 0.25f * g * g + ( 1.0f / 27.0f ) * f * f * f; if ( ds < 0.0f ) { dist = idMath::Sqrt( ( -1.0f / 3.0f ) * f ); angle = ( 1.0f / 3.0f ) * idMath::ATan( idMath::Sqrt( -ds ), -halfg ); cs = idMath::Cos( angle ); ss = idMath::Sin( angle ); roots[0] = 2.0f * dist * cs - ofs; roots[1] = -dist * ( cs + idMath::SQRT_THREE * ss ) - ofs; roots[2] = -dist * ( cs - idMath::SQRT_THREE * ss ) - ofs; return 3; } else if ( ds > 0.0f ) { ds = idMath::Sqrt( ds ); t = -halfg + ds; if ( t >= 0.0f ) { roots[0] = idMath::Pow( t, ( 1.0f / 3.0f ) ); } else { roots[0] = -idMath::Pow( -t, ( 1.0f / 3.0f ) ); } t = -halfg - ds; if ( t >= 0.0f ) { roots[0] += idMath::Pow( t, ( 1.0f / 3.0f ) ); } else { roots[0] -= idMath::Pow( -t, ( 1.0f / 3.0f ) ); } roots[0] -= ofs; return 1; } else { if ( halfg >= 0.0f ) { t = -idMath::Pow( halfg, ( 1.0f / 3.0f ) ); } else { t = idMath::Pow( -halfg, ( 1.0f / 3.0f ) ); } roots[0] = 2.0f * t - ofs; roots[1] = -t - ofs; roots[2] = roots[1]; return 3; } } ID_INLINE int idPolynomial::GetRoots4( float a, float b, float c, float d, float e, float *roots ) { int count; float inva, y, ds, r, s1, s2, t1, t2, tp, tm; float roots3[3]; if ( a != 1.0f ) { assert( a != 0.0f ); inva = 1.0f / a; e *= inva; d *= inva; c *= inva; b *= inva; } count = 0; GetRoots3( 1.0f, -c, b * d - 4.0f * e, -b * b * e + 4.0f * c * e - d * d, roots3 ); y = roots3[0]; ds = 0.25f * b * b - c + y; if ( ds < 0.0f ) { return 0; } else if ( ds > 0.0f ) { r = idMath::Sqrt( ds ); t1 = 0.75f * b * b - r * r - 2.0f * c; t2 = ( 4.0f * b * c - 8.0f * d - b * b * b ) / ( 4.0f * r ); tp = t1 + t2; tm = t1 - t2; if ( tp >= 0.0f ) { s1 = idMath::Sqrt( tp ); roots[count++] = -0.25f * b + 0.5f * ( r + s1 ); roots[count++] = -0.25f * b + 0.5f * ( r - s1 ); } if ( tm >= 0.0f ) { s2 = idMath::Sqrt( tm ); roots[count++] = -0.25f * b + 0.5f * ( s2 - r ); roots[count++] = -0.25f * b - 0.5f * ( s2 + r ); } return count; } else { t2 = y * y - 4.0f * e; if ( t2 >= 0.0f ) { t2 = 2.0f * idMath::Sqrt( t2 ); t1 = 0.75f * b * b - 2.0f * c; if ( t1 + t2 >= 0.0f ) { s1 = idMath::Sqrt( t1 + t2 ); roots[count++] = -0.25f * b + 0.5f * s1; roots[count++] = -0.25f * b - 0.5f * s1; } if ( t1 - t2 >= 0.0f ) { s2 = idMath::Sqrt( t1 - t2 ); roots[count++] = -0.25f * b + 0.5f * s2; roots[count++] = -0.25f * b - 0.5f * s2; } } return count; } } ID_INLINE const float *idPolynomial::ToFloatPtr( void ) const { return coefficient; } ID_INLINE float *idPolynomial::ToFloatPtr( void ) { return coefficient; } ID_INLINE void idPolynomial::Resize( int d, bool keep ) { int alloc = ( d + 1 + 3 ) & ~3; if ( alloc > allocated ) { // RAVEN BEGIN float *ptr = (float *) Mem_Alloc16( alloc * sizeof( float ), MA_MATH ); // RAVEN END if ( coefficient != NULL ) { if ( keep ) { for ( int i = 0; i <= degree; i++ ) { ptr[i] = coefficient[i]; } } Mem_Free16( coefficient ); } allocated = alloc; coefficient = ptr; } degree = d; } #endif /* !__MATH_POLYNOMIAL_H__ */