CVM Class Library  8.1
This C++ class library encapsulates concepts of vector and different matrices including square, band, symmetric and hermitian ones in Euclidean space of real and complex numbers.
 All Classes Files Functions Variables Typedefs Friends Macros Pages
basic_fvector< T > Member List

This is the complete list of members for basic_fvector< T >, including all inherited members.

BaseFArray typedefbasic_fvector< T >protected
BaseFunction typedefbasic_fvector< T >protected
basic_fmatrix< T > classbasic_fvector< T >friend
basic_fvector()basic_fvector< T >inline
basic_fvector(size_t nSize)basic_fvector< T >inlineexplicit
basic_fvector(const string_array &saInput)basic_fvector< T >inlineexplicit
basic_fvector(const string_array &saVars, const string_array &saBodies, const string_array &saParameters, const string_array &saMeanings)basic_fvector< T >inline
basic_fvector(const basic_fvector &fv)basic_fvector< T >inline
basic_fvector(basic_fvector &&fv)basic_fvector< T >inline
drv(size_t nVarNum) const basic_fvector< T >inline
FArray()FArray< T >inline
FArray(size_t nSize)FArray< T >inlineexplicit
FArray(const FArray &a)FArray< T >inline
FArray(FArray &&a)FArray< T >inline
FArray(const string_array &saInput)FArray< T >inlineexplicit
FArray(const string_array &saVars, const string_array &saBodies, const string_array &saParameters, const string_array &saMeanings)FArray< T >inline
impl()FArray< T >inline
impl() const FArray< T >inline
jacobian(size_t nfrom=0, size_t vars=0) const basic_fvector< T >inline
jacobian(basic_fmatrix< T > &fmj, size_t nfrom=0, size_t vars=0) const basic_fvector< T >inline
mult(const basic_fvector &fv, const basic_fmatrix< T > &fm)basic_fvector< T >inline
mult(const basic_fmatrix< T > &fm, const basic_fvector &fv)basic_fvector< T >inline
mvFArray< T >protected
operator!=(const basic_fvector &fv) const basic_fvector< T >inline
operator*(const BaseFunction &f) const basic_fvector< T >inline
operator*(const T &d) const basic_fvector< T >inline
operator*(const basic_fvector &fv) const basic_fvector< T >inline
operator*(const basic_fmatrix< T > &fm) const basic_fvector< T >inline
operator*=(const BaseFunction &f)basic_fvector< T >inline
operator*=(const T &d)basic_fvector< T >inline
operator+(const basic_fvector &fv) const basic_fvector< T >inline
operator+=(const basic_fvector &fv)basic_fvector< T >inline
operator-(const basic_fvector &fv) const basic_fvector< T >inline
operator-=(const basic_fvector &fv)basic_fvector< T >inline
operator/(const BaseFunction &f) const basic_fvector< T >inline
operator/(const T &d) const basic_fvector< T >inline
operator/=(const BaseFunction &f)basic_fvector< T >inline
operator/=(const T &d)basic_fvector< T >inline
operator<<(const basic_fvector &fv)basic_fvector< T >inline
operator<<(std::ostream &os, const basic_fvector< T > &fv)basic_fvector< T >friend
operator=(const basic_fvector &fv)basic_fvector< T >inline
operator=(basic_fvector &&fv)basic_fvector< T >inline
operator==(const basic_fvector &fv) const basic_fvector< T >inline
operator[](size_t n) const FArray< T >inline
operator[](size_t n)FArray< T >inline
simp()basic_fvector< T >inline
size() const FArray< T >inline
value(T *pv) const FArray< T >inline
value(T d, T *pv) const FArray< T >inline
value(T d1, T d2, T *pv) const FArray< T >inline
value(T d1, T d2, T d3, T *pv) const FArray< T >inline
value(const T *pd, T *pv) const FArray< T >inline
~FArray()FArray< T >inlinevirtual