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Added units to the docstrings #68

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127 changes: 114 additions & 13 deletions src/caustics/cosmology.py
Original file line number Diff line number Diff line change
Expand Up @@ -43,12 +43,13 @@ class Cosmology(Parametrized):
This class provides an interface for cosmological computations used in lensing
such as comoving distance and critical surface density.

Units
-----
Distance
Mpc

*Unit: megaparsec*

Mass
solar mass

*Unit: solMass*

Attributes
----------
Expand Down Expand Up @@ -76,13 +77,19 @@ def critical_density(self, z: Tensor, params: Optional["Packed"] = None) -> Tens
----------
z: Tensor
The redshifts.

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The critical density at each redshift.

*Unit: solMass/megaparsec^3*

"""
...

Expand All @@ -98,13 +105,19 @@ def comoving_distance(
----------
z: Tensor
The redshifts.
params: (Packed, optional0

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The comoving distance to each redshift.

*Unit: megaparsec*

"""
...

Expand All @@ -120,13 +133,19 @@ def transverse_comoving_distance(
----------
z: Tensor
The redshifts.

*Unit: unitless*

params: (Packed, optional)
Dynamic parameter container for the computation.

Returns
-------
Tensor
The transverse comoving distance to each redshift in Mpc.

*Unit: megaparsec*

"""
...

Expand All @@ -141,15 +160,24 @@ def comoving_distance_z1z2(
----------
z1: Tensor
The starting redshifts.

*Unit: unitless*

z2: Tensor
The ending redshifts.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The comoving distance between each pair of redshifts.

*Unit: megaparsec*

"""
return self.comoving_distance(z2, params) - self.comoving_distance(z1, params)

Expand All @@ -164,15 +192,24 @@ def transverse_comoving_distance_z1z2(
----------
z1: Tensor
The starting redshifts.

*Unit: unitless*

z2: Tensor
The ending redshifts.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The transverse comoving distance between each pair of redshifts in Mpc.

*Unit: megaparsec*

"""
return self.transverse_comoving_distance(
z2, params
Expand All @@ -189,13 +226,19 @@ def angular_diameter_distance(
-----------
z: Tensor
The redshifts.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The angular diameter distance to each redshift.

*Unit: megaparsec*

"""
return self.comoving_distance(z, params, **kwargs) / (1 + z)

Expand All @@ -210,15 +253,24 @@ def angular_diameter_distance_z1z2(
----------
z1: Tensor
The starting redshifts.

*Unit: unitless*

z2: Tensor
The ending redshifts.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The angular diameter distance between each pair of redshifts.

*Unit: megaparsec*

"""
return self.comoving_distance_z1z2(z1, z2, params, **kwargs) / (1 + z2)

Expand All @@ -238,15 +290,24 @@ def time_delay_distance(
----------
z_l: Tensor
The lens redshifts.

*Unit: unitless*

z_s: Tensor
The source redshifts.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The time delay distance for each pair of lens and source redshifts.

*Unit: megaparsec*

"""
d_l = self.angular_diameter_distance(z_l, params)
d_s = self.angular_diameter_distance(z_s, params)
Expand All @@ -269,15 +330,24 @@ def critical_surface_density(
----------
z_l: Tensor
The lens redshifts.

*Unit: unitless*

z_s: Tensor
The source redshifts.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
The critical surface density for each pair of lens and source redshifts.

*Unit: solMass/megaparsec^2*

"""
d_l = self.angular_diameter_distance(z_l, params)
d_s = self.angular_diameter_distance(z_s, params)
Expand Down Expand Up @@ -307,10 +377,19 @@ def __init__(
Name of the cosmology.
h0: Optional[Tensor]
Hubble constant over 100. Default is h0_default.

*Unit: unitless*

critical_density_0: (Optional[Tensor])
Critical density at z=0. Default is critical_density_0_default.

*Unit: solMass/megaparsec^3*

Om0: Optional[Tensor]
Matter density parameter at z=0. Default is Om0_default.

*Unit: unitless*

"""
super().__init__(name)

Expand Down Expand Up @@ -345,10 +424,15 @@ def hubble_distance(self, h0):
h0: Tensor
Hubble constant.

*Unit: unitless*

Returns
-------
Tensor
Hubble distance.

*Unit: megaparsec*

"""
return c_Mpc_s / (100 * km_to_Mpc) / h0

Expand All @@ -370,13 +454,19 @@ def critical_density(
----------
z: Tensor
Redshift.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
torch.Tensor
Critical density at redshift z.

*Unit: solMass/megaparsec^3*

"""
Ode0 = 1 - Om0
return critical_density_0 * (Om0 * (1 + z) ** 3 + Ode0) # fmt: skip
Expand All @@ -393,10 +483,15 @@ def _comoving_distance_helper(
x: Tensor
Input tensor.

*Unit: megaparsec*

Returns
-------
Tensor
Computed comoving distances.

*Unit: megaparsec*

"""
return interp1d(
self._comoving_distance_helper_x_grid,
Expand All @@ -422,13 +517,19 @@ def comoving_distance(
----------
z: Tensor
Redshift.
params: (Packed, optional)

*Unit: unitless*

params: Packed, optional
Dynamic parameter container for the computation.

Returns
-------
Tensor
Comoving distance to redshift z.

*Unit: megaparsec*

"""
Ode0 = 1 - Om0
ratio = (Om0 / Ode0) ** (1 / 3)
Expand Down
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