Effective implementation of algorithms (Master Thesis)
Effective and error-free implementation of algorithms
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C_ASSERT(NumericType< T >::isInt) | math::rational::Rational< T > | |
den | math::rational::Rational< T > | [private] |
denominator() const | math::rational::Rational< T > | [inline] |
inverted() const | math::rational::Rational< T > | [inline] |
normalize() | math::rational::Rational< T > | [inline] |
num | math::rational::Rational< T > | [private] |
numerator() const | math::rational::Rational< T > | [inline] |
operator*(const Rational< T > &a, const Rational< T > &b) | math::rational::Rational< T > | [related] |
operator+(const Rational< T > &a, const Rational< T > &b) | math::rational::Rational< T > | [related] |
operator-(const Rational< T > &a, const Rational< T > &b) | math::rational::Rational< T > | [related] |
operator/(const Rational< T > &a, const Rational< T > &b) | math::rational::Rational< T > | [related] |
Rational() | math::rational::Rational< T > | [inline] |
Rational(T value) | math::rational::Rational< T > | [inline] |
Rational(T n, T d) | math::rational::Rational< T > | [inline] |
Rational(const Rational< T > &value) | math::rational::Rational< T > | [inline] |