LogQuantity¶
- class astropy.units.LogQuantity(value, unit=None, dtype=<class 'numpy.inexact'>, copy=True, order=None, subok=False, ndmin=0)[source]¶
Bases:
FunctionQuantity
A representation of a (scaled) logarithm of a number with a unit
- Parameters:
- valuenumber,
Quantity
,LogQuantity
, or python:sequence of quantity-like. The numerical value of the logarithmic quantity. If a number or a
Quantity
with a logarithmic unit, it will be converted tounit
and the physical unit will be inferred fromunit
. If aQuantity
with just a physical unit, it will converted to the logarithmic unit, after, if necessary, converting it to the physical unit inferred fromunit
.- unit
python:str
,UnitBase
, orFunctionUnitBase
, optional For an
FunctionUnitBase
instance, the physical unit will be taken from it; for other input, it will be inferred fromvalue
. By default,unit
is set by the subclass.- dtype
dtype
, optional The
dtype
of the resulting Numpy array or scalar that will hold the value. If not provided, is is determined automatically from the input value.- copybool, optional
If
True
(default), then the value is copied. Otherwise, a copy will only be made if__array__
returns a copy, if value is a nested sequence, or if a copy is needed to satisfy an explicitly givendtype
. (TheFalse
option is intended mostly for internal use, to speed up initialization where a copy is known to have been made. Use with care.)
- valuenumber,
Examples
Typically, use is made of an
FunctionQuantity
subclass, as in:>>> import astropy.units as u >>> u.Magnitude(-2.5) <Magnitude -2.5 mag> >>> u.Magnitude(10.*u.count/u.second) <Magnitude -2.5 mag(ct / s)> >>> u.Decibel(1.*u.W, u.DecibelUnit(u.mW)) <Decibel 30. dB(mW)>
Methods Summary
diff
([n, axis])ediff1d
([to_end, to_begin])ptp
([axis, out, keepdims])Peak to peak (maximum - minimum) value along a given axis.
std
([axis, dtype, out, ddof, keepdims, where])Returns the standard deviation of the array elements along given axis.
var
([axis, dtype, out, ddof, keepdims, where])Returns the variance of the array elements, along given axis.
Methods Documentation
- ptp(axis=None, out=None, keepdims=False)[source]¶
Peak to peak (maximum - minimum) value along a given axis.
Refer to
numpy.ptp
for full documentation.See also
numpy.ptp
equivalent function