Defines |
#define | _NPY_UMATH_LOOPS_H_ |
#define | BOOL_invert BOOL_logical_not |
#define | BOOL_negative BOOL_logical_not |
#define | BOOL_add BOOL_logical_or |
#define | BOOL_bitwise_and BOOL_logical_and |
#define | BOOL_bitwise_or BOOL_logical_or |
#define | BOOL_logical_xor BOOL_not_equal |
#define | BOOL_bitwise_xor BOOL_logical_xor |
#define | BOOL_multiply BOOL_logical_and |
#define | BOOL_subtract BOOL_logical_xor |
#define | BOOL_maximum BOOL_logical_or |
#define | BOOL_minimum BOOL_logical_and |
#define | BOOL_fmax BOOL_maximum |
#define | BOOL_fmin BOOL_minimum |
#define | S @@TYPE@_floor_divide @S@@TYPE@_divide |
#define | S @@TYPE@_fmax @S@@TYPE@_maximum |
#define | S @@TYPE@_fmin @S@@TYPE@_minimum |
#define | TYPE @_true_divide @TYPE@_divide |
#define | CGE(xr, xi, yr, yi) (xr > yr || (xr == yr && xi >= yi)); |
#define | CLE(xr, xi, yr, yi) (xr < yr || (xr == yr && xi <= yi)); |
#define | CGT(xr, xi, yr, yi) (xr > yr || (xr == yr && xi > yi)); |
#define | CLT(xr, xi, yr, yi) (xr < yr || (xr == yr && xi < yi)); |
#define | CEQ(xr, xi, yr, yi) (xr == yr && xi == yi); |
#define | CNE(xr, xi, yr, yi) (xr != yr || xi != yi); |
#define | C @TYPE@_true_divide C@TYPE@_divide |
#define | TIMEDELTA_mq_m_true_divide TIMEDELTA_mq_m_divide |
#define | TIMEDELTA_md_m_true_divide TIMEDELTA_md_m_divide |
#define | TIMEDELTA_mm_d_true_divide TIMEDELTA_mm_d_divide |
#define | TIMEDELTA_mq_m_floor_divide TIMEDELTA_mq_m_divide |
#define | TIMEDELTA_md_m_floor_divide TIMEDELTA_md_m_divide |
#define | TIMEDELTA_fmin TIMEDELTA_minimum |
#define | TIMEDELTA_fmax TIMEDELTA_maximum |
#define | DATETIME_fmin DATETIME_minimum |
#define | DATETIME_fmax DATETIME_maximum |
Functions |
NPY_NO_EXPORT void BOOL_ | kind (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | BOOL__ones_like (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(data)) |
NPY_NO_EXPORT void S TYPE | __ones_like (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(data)) |
NPY_NO_EXPORT void S TYPE _square | isa (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(data)) |
NPY_NO_EXPORT void S TYPE
_conjugate | isa (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void S TYPE | _true_divide (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void S TYPE | _power (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void S TYPE | _fmod (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void U TYPE | _absolute (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void U TYPE | _sign (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _divide (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _remainder (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _sqrt (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _logical_xor (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _logical_not (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _floor_divide (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _square (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(data)) |
NPY_NO_EXPORT void TYPE | _reciprocal (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(data)) |
NPY_NO_EXPORT void TYPE | _conjugate (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _negative (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _modf (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _frexp (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _ldexp (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void TYPE | _ldexp_long (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void C TYPE | _multiply (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void C TYPE | __arg (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_negative (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_absolute (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_sign (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | DATETIME_Mm_M_add (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(data)) |
NPY_NO_EXPORT void | DATETIME_mM_M_add (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_mm_m_add (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | DATETIME_Mm_M_subtract (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | DATETIME_MM_m_subtract (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_mm_m_subtract (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_mq_m_multiply (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_qm_m_multiply (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_md_m_multiply (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_dm_m_multiply (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_mq_m_divide (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_md_m_divide (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | TIMEDELTA_mm_d_divide (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |
NPY_NO_EXPORT void | OBJECT_sign (char **args, npy_intp *dimensions, npy_intp *steps, void *NPY_UNUSED(func)) |