pymsis.Variable#

class pymsis.Variable(value, names=<not given>, *values, module=None, qualname=None, type=None, start=1, boundary=None)#

Enumeration of variable data indices for the output from calculate().

This can be used to access the data from the output arrays instead of having to remember the order of the output. For example, output_array[..., Variable.MASS_DENSITY].

MASS_DENSITY#: Index of total mass density (kg/m³).

N2#: Index of N2 number density (m^-3).

O2#: Index of O2 number density (m^-3).

O#: Index of O number density (m^-3).

HE#: Index of He number density (m^-3).

H#: Index of H number density (m^-3).

AR#: Index of Ar number density (m^-3).

N#: Index of N number density (m^-3).

ANOMALOUS_O#: Index of anomalous oxygen number density (m^-3).

NO#: Index of NO number density (m^-3).

TEMPERATURE#: Index of temperature (K).

__init__(*args, **kwds)#

Methods

`conjugate`()	Returns self, the complex conjugate of any int.
`bit_length`()	Number of bits necessary to represent self in binary.
`bit_count`()	Number of ones in the binary representation of the absolute value of self.
`to_bytes`([length, byteorder, signed])	Return an array of bytes representing an integer.
`from_bytes`([byteorder, signed])	Return the integer represented by the given array of bytes.
`as_integer_ratio`()	Return a pair of integers, whose ratio is equal to the original int.
`is_integer`()	Returns True.
`__init__`(args, *kwds)

Attributes

`real`	the real part of a complex number
`imag`	the imaginary part of a complex number
`numerator`	the numerator of a rational number in lowest terms
`denominator`	the denominator of a rational number in lowest terms
`MASS_DENSITY`
`N2`
`O2`
`O`
`HE`
`H`
`AR`
`N`
`ANOMALOUS_O`
`NO`
`TEMPERATURE`