Defines | |
#define | ROTATE_POS_ESC(in, out, t) out.q[N]=_IQmpy(in,_IQcos(t));out.d[N]=_IQmpy(in,_IQsin(t)); |
#define | ROTATE_NEG_ESC(in, out, t) out.q[N]=_IQmpy(in,_IQcos(t));out.d[N]=-_IQmpy(in,_IQsin(t)); |
#define | SROTATE_POS_ESC(in, out, t) out.q=_IQmpy(in,_IQcos(t));out.d=_IQmpy(in,_IQsin(t)); |
#define | SROTATE_NEG_ESC(in, out, t) out.q=_IQmpy(in,_IQcos(t));out.d=-_IQmpy(in,_IQsin(t)); |
#define ROTATE_NEG_ESC | ( | in, | |||
out, | |||||
t | ) | out.q[N]=_IQmpy(in,_IQcos(t));out.d[N]=-_IQmpy(in,_IQsin(t)); |
define negative rotation of sqddata (rotate to synchronous coordinates out=in*exp(j*t))
in data in the original reference frame.
out data in the rotated reference frame.
t angle of rotation.
Definition at line 120 of file FilterAndRotations.h.
#define ROTATE_POS_ESC | ( | in, | |||
out, | |||||
t | ) | out.q[N]=_IQmpy(in,_IQcos(t));out.d[N]=_IQmpy(in,_IQsin(t)); |
define positive rotation of scaler input (rotate to synchronous coordinates out=in*exp(j*t))
in (scalar) data in the original reference frame.
out (qddata) data in the rotated reference frame.
t angle of rotation.
Definition at line 107 of file FilterAndRotations.h.
#define SROTATE_NEG_ESC | ( | in, | |||
out, | |||||
t | ) | out.q=_IQmpy(in,_IQcos(t));out.d=-_IQmpy(in,_IQsin(t)); |
Definition at line 132 of file FilterAndRotations.h.
#define SROTATE_POS_ESC | ( | in, | |||
out, | |||||
t | ) | out.q=_IQmpy(in,_IQcos(t));out.d=_IQmpy(in,_IQsin(t)); |
Definition at line 126 of file FilterAndRotations.h.