1 #ifndef STAN_MATH_FWD_MAT_FUN_TRACE_GEN_QUAD_FORM_HPP 2 #define STAN_MATH_FWD_MAT_FUN_TRACE_GEN_QUAD_FORM_HPP 14 template <
int RD,
int CD,
int RA,
int CA,
int RB,
int CB,
typename T>
16 const Eigen::Matrix<
fvar<T>, RA, CA> &A,
17 const Eigen::Matrix<
fvar<T>, RB, CB> &B) {
void check_square(const char *function, const char *name, const matrix_cl &y)
Check if the matrix_cl is square.
Eigen::Matrix< fvar< T >, R1, C1 > multiply(const Eigen::Matrix< fvar< T >, R1, C1 > &m, const fvar< T > &c)
fvar< T > trace_gen_quad_form(const Eigen::Matrix< fvar< T >, RD, CD > &D, const Eigen::Matrix< fvar< T >, RA, CA > &A, const Eigen::Matrix< fvar< T >, RB, CB > &B)
void check_multiplicable(const char *function, const char *name1, const T1 &y1, const char *name2, const T2 &y2)
Check if the matrices can be multiplied.
matrix_cl transpose(const matrix_cl &src)
Takes the transpose of the matrix on the OpenCL device.
T trace(const Eigen::Matrix< T, Eigen::Dynamic, Eigen::Dynamic > &m)
Returns the trace of the specified matrix.
This template class represents scalars used in forward-mode automatic differentiation, which consist of values and directional derivatives of the specified template type.