Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

add EclipticCoords #46

Merged
merged 3 commits into from
Feb 11, 2023
Merged
Show file tree
Hide file tree
Changes from all commits
Commits
File filter

Filter by extension

Filter by extension

Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
17 changes: 17 additions & 0 deletions src/SkyCoords.jl
Original file line number Diff line number Diff line change
Expand Up @@ -9,6 +9,7 @@ export AbstractSkyCoords,
ICRSCoords,
GalCoords,
FK5Coords,
EclipticCoords,
CartesianCoords,
separation,
position_angle,
Expand Down Expand Up @@ -101,11 +102,20 @@ function precess_from_j2000(equinox)
zrotmat(-z) * yrotmat(theta) * zrotmat(-zeta)
end

function ecliptic_obliquity(y)
# https://github.com/JuliaAstro/AstroBase.jl/blob/master/src/EarthAttitude/obliquity.jl
T = (y - 2000.0) / 100
obl = @evalpoly(T, 84381.406, -46.836769, -0.0001831, 0.00200340, -0.000000576, -0.0000000434)
return deg2rad(obl / 3600)
end

# -----------------------------------------------------------------------------
# Type-dependent methods

lon(c::GalCoords) = c.l
lat(c::GalCoords) = c.b
lat(c::EclipticCoords) = c.lat
lon(c::EclipticCoords) = c.lon
lon(c::AbstractSkyCoords) = c.ra
lat(c::AbstractSkyCoords) = c.dec

Expand All @@ -121,6 +131,13 @@ rotmat(::Type{<:ICRSCoords}, ::Type{<:ICRSCoords}) = I
rotmat(::Type{<:GalCoords}, ::Type{<:GalCoords}) = I
rotmat(::Type{<:FK5Coords{e}}, ::Type{<:FK5Coords{e}}) where {e} = I

@generated rotmat(::Type{<:EclipticCoords{e}}, ::Type{<:FK5Coords{e}}) where {e} = xrotmat(ecliptic_obliquity(e))
@generated rotmat(::Type{<:FK5Coords{e}}, ::Type{<:EclipticCoords{e}}) where {e} = xrotmat(-ecliptic_obliquity(e))
@generated rotmat(::Type{<:EclipticCoords{e}}, ::Type{T}) where {e,T<:AbstractSkyCoords} = rotmat(EclipticCoords{e}, FK5Coords{e}) * rotmat(FK5Coords{e}, T)
@generated rotmat(::Type{T}, ::Type{<:EclipticCoords{e}}) where {e,T<:AbstractSkyCoords} = rotmat(T, FK5Coords{e}) * rotmat(FK5Coords{e}, EclipticCoords{e})
# disambiguation:
@generated rotmat(::Type{<:EclipticCoords{e_to}}, ::Type{<:EclipticCoords{e_from}}) where {e_to,e_from} = rotmat(EclipticCoords{e_to}, FK5Coords{e_to}) * rotmat(FK5Coords{e_to}, EclipticCoords{e_from})

@generated rotmat(::Type{<:FK5Coords{e1}}, ::Type{<:ICRSCoords}) where {e1} =
precess_from_j2000(e1) * ICRS_TO_FK5J2000
@generated rotmat(::Type{<:FK5Coords{e1}}, ::Type{<:GalCoords}) where {e1} =
Expand Down
13 changes: 13 additions & 0 deletions src/types.jl
Original file line number Diff line number Diff line change
Expand Up @@ -72,6 +72,18 @@ FK5Coords{e,F}(c::T) where {e,F,T<:AbstractSkyCoords} = convert(FK5Coords{e,F},
constructorof(::Type{<:FK5Coords{e}}) where {e} = FK5Coords{e}


struct EclipticCoords{e,T<:AbstractFloat} <: AbstractSkyCoords
lon::T
lat::T
EclipticCoords{e,T}(lon, lat) where {e,T<:AbstractFloat} = new(mod2pi(lon), lat)
end
EclipticCoords{e}(lon::T, lat::T) where {e,T<:AbstractFloat} = EclipticCoords{e,T}(lon, lat)
EclipticCoords{e}(lon::Real, lat::Real) where {e} = EclipticCoords(promote(float(lon), float(lat))...)
EclipticCoords{e}(c::AbstractSkyCoords) where {e} = convert(EclipticCoords{e}, c)
EclipticCoords{e,F}(c::AbstractSkyCoords) where {e,F} = convert(EclipticCoords{e,F}, c)
constructorof(::Type{<:EclipticCoords{e}}) where {e} = EclipticCoords{e}


# Scalar coordinate conversions
Base.convert(::Type{T}, c::T) where {T<:AbstractSkyCoords} = c

Expand All @@ -85,3 +97,4 @@ Base.:(==)(a::T, b::T) where {T<:AbstractSkyCoords} = lon(a) == lon(b) && lat(a)
Base.isapprox(a::ICRSCoords, b::ICRSCoords; kwargs...) = isapprox(SVector(lon(a), lat(a)), SVector(lon(b), lat(b)); kwargs...)
Base.isapprox(a::GalCoords, b::GalCoords; kwargs...) = isapprox(SVector(lon(a), lat(a)), SVector(lon(b), lat(b)); kwargs...)
Base.isapprox(a::FK5Coords{e}, b::FK5Coords{e}; kwargs...) where {e} = isapprox(SVector(lon(a), lat(a)), SVector(lon(b), lat(b)); kwargs...)
Base.isapprox(a::EclipticCoords{e}, b::EclipticCoords{e}; kwargs...) where {e} = isapprox(SVector(lon(a), lat(a)), SVector(lon(b), lat(b)); kwargs...)
16 changes: 9 additions & 7 deletions test/astropy.jl
Original file line number Diff line number Diff line change
Expand Up @@ -12,8 +12,9 @@ const lats = pi .* (rand(rng, N) .- 0.5) # (-π, π)
astropy_conversion(::Type{<:ICRSCoords}) = apc.ICRS
astropy_conversion(::Type{<:FK5Coords{F}}) where {F} = apc.FK5(equinox="J$F")
astropy_conversion(::Type{<:GalCoords}) = apc.Galactic
astropy_conversion(::Type{<:EclipticCoords{F}}) where {F} = apc.GeocentricMeanEcliptic(equinox="J$F")

function test_against_astropy(intype, outtype)
function test_against_astropy(intype, outtype; atol=0)
## get julia values
output_coords = map((lon, lat) -> convert(outtype, intype(lon, lat)), lons, lats)
output_lons = map(lon, output_coords)
Expand All @@ -28,8 +29,8 @@ function test_against_astropy(intype, outtype)
ap_output_lons = pyconvert(Vector, output_coord_list.spherical.lon.rad)
ap_output_lats = pyconvert(Vector, output_coord_list.spherical.lat.rad)

@test output_lons ap_output_lons
@test output_lats ap_output_lats
@test output_lons ap_output_lons atol=atol*√N
@test output_lats ap_output_lats atol=atol*√N

end

Expand All @@ -47,10 +48,11 @@ end
FK5Coords{2000,F},
FK5Coords{1975,F},
GalCoords{F},
EclipticCoords{2000,F},
EclipticCoords{1975,F},
)

@testset "$IN_SYS --> $OUT_SYS"for IN_SYS in systems, OUT_SYS in systems
test_against_astropy(IN_SYS, OUT_SYS)

@testset "$IN_SYS --> $OUT_SYS" for IN_SYS in systems, OUT_SYS in systems
atol = IN_SYS <: EclipticCoords || OUT_SYS <: EclipticCoords ? 1e-3 : 0
test_against_astropy(IN_SYS, OUT_SYS; atol)
end
end