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 explicit Any for all @attr functionexpr cases #4070

Merged
merged 1 commit into from
Sep 5, 2024
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
4 changes: 2 additions & 2 deletions experimental/GModule/src/GModule.jl
Original file line number Diff line number Diff line change
Expand Up @@ -790,7 +790,7 @@ end

gmodule(k::fpField, C::GModule{<:Any, <:AbstractAlgebra.FPModule{fpFieldElem}}) = C

@attr function _character(C::GModule{<:Any, <:AbstractAlgebra.FPModule{<:AbstractAlgebra.FieldElem}})
@attr Any function _character(C::GModule{<:Any, <:AbstractAlgebra.FPModule{<:AbstractAlgebra.FieldElem}})
G = group(C)
phi = epimorphism_from_free_group(G)
ac = Oscar.GrpCoh.action(C)
Expand Down Expand Up @@ -841,7 +841,7 @@ end

Oscar.character_field(C::GModule{<:Any, <:AbstractAlgebra.FPModule{QQFieldElem}}) = QQ

@attr function _character_field(C::GModule{<:Any, <:AbstractAlgebra.FPModule{AbsSimpleNumFieldElem}})
@attr Any function _character_field(C::GModule{<:Any, <:AbstractAlgebra.FPModule{AbsSimpleNumFieldElem}})
val = _character(C)
k, mkK = Hecke.subfield(base_ring(C), [x[2] for x = val])
return k, mkK
Expand Down
2 changes: 1 addition & 1 deletion experimental/Schemes/src/AlgebraicCycles.jl
Original file line number Diff line number Diff line change
Expand Up @@ -374,7 +374,7 @@
end


@attr function dim(D::AlgebraicCycle)
@attr Any function dim(D::AlgebraicCycle)

Check warning on line 377 in experimental/Schemes/src/AlgebraicCycles.jl

View check run for this annotation

Codecov / codecov/patch

experimental/Schemes/src/AlgebraicCycles.jl#L377

Added line #L377 was not covered by tests
result = -1
for I in components(D)
d = dim(I)
Expand Down
6 changes: 3 additions & 3 deletions experimental/Schemes/src/CoherentSheaves.jl
Original file line number Diff line number Diff line change
Expand Up @@ -1065,7 +1065,7 @@ end
For a `SheafOfModules` ``ℳ`` on an `AbsCoveredScheme` ``X``, return
the ``𝒪_X``-dual ``ℋ om_{𝒪_X}(ℳ , 𝒪_X)`` of ``ℳ``.
"""
@attr function dual(M::SheafOfModules)
@attr Any function dual(M::SheafOfModules)
OOX = sheaf_of_rings(M)
F = free_module(OOX, ["1"])
return HomSheaf(M, F)
Expand Down Expand Up @@ -1431,7 +1431,7 @@ end
end

#@attr Covering function trivializing_covering(M::AbsCoherentSheaf)
@attr function trivializing_covering(M::AbsCoherentSheaf)
@attr Any function trivializing_covering(M::AbsCoherentSheaf)
X = scheme(M)
OOX = OO(X)
patch_list = Vector{AbsAffineScheme}()
Expand Down Expand Up @@ -1466,7 +1466,7 @@ function inherit_decomposition_info!(C::Covering, X::AbsCoveredScheme)
return C
end

@attr function trivializing_covering(M::HomSheaf)
@attr Any function trivializing_covering(M::HomSheaf)
X = scheme(M)
OOX = OO(X)
# The problem is that every module of a HomSheaf must know that it is
Expand Down
4 changes: 2 additions & 2 deletions experimental/Schemes/src/CoveredProjectiveSchemes.jl
Original file line number Diff line number Diff line change
Expand Up @@ -915,7 +915,7 @@ function _compute_gluing(gd::ProjectiveGluingData)
return pr
end

@attr function covered_scheme(P::CoveredProjectiveScheme)
@attr Any function covered_scheme(P::CoveredProjectiveScheme)
X = base_scheme(P)
C = base_covering(P)
new_patches = Vector{AbsAffineScheme}()
Expand Down Expand Up @@ -989,7 +989,7 @@ end
return result
end

@attr function covered_projection_to_base(P::CoveredProjectiveScheme)
@attr Any function covered_projection_to_base(P::CoveredProjectiveScheme)
if !has_attribute(P, :covering_projection_to_base)
covered_scheme(P)
end
Expand Down
2 changes: 1 addition & 1 deletion experimental/Schemes/src/CoveredScheme.jl
Original file line number Diff line number Diff line change
Expand Up @@ -239,7 +239,7 @@ end
end

# coefficient ring an MPolyAnyRing
@attr function standard_covering(X::AbsProjectiveScheme{CRT, <:Union{<:MPolyDecRing, <:MPolyQuoRing}}) where {CRT<:Union{<:MPolyQuoLocRing, <:MPolyLocRing, <:MPolyRing, <:MPolyQuoRing}}
@attr Any function standard_covering(X::AbsProjectiveScheme{CRT, <:Union{<:MPolyDecRing, <:MPolyQuoRing}}) where {CRT<:Union{<:MPolyQuoLocRing, <:MPolyLocRing, <:MPolyRing, <:MPolyQuoRing}}
Y = base_scheme(X)
R = ambient_coordinate_ring(Y)
kk = coefficient_ring(R)
Expand Down
2 changes: 1 addition & 1 deletion experimental/Schemes/src/IdealSheaves.jl
Original file line number Diff line number Diff line change
Expand Up @@ -617,7 +617,7 @@ Return whether ``I`` is prime.
We say that a sheaf of ideals is prime if its support is irreducible and
``I`` is locally prime. (Note that the empty set is not irreducible.)
"""
@attr function is_prime(I::AbsIdealSheaf)
@attr Any function is_prime(I::AbsIdealSheaf)
is_locally_prime(I) || return false
# TODO: this can be made more efficient
PD = maximal_associated_points(I)
Expand Down
4 changes: 2 additions & 2 deletions experimental/Schemes/src/MorphismFromRationalFunctions.jl
Original file line number Diff line number Diff line change
Expand Up @@ -595,11 +595,11 @@
# But they can be set by the user so that certain checks of other methods
# are satisfied; i.e. the user has to take responsibility and confirm that
# they know what they're doing through these channels.
@attr function is_proper(phi::AbsCoveredSchemeMorphism)
@attr Any function is_proper(phi::AbsCoveredSchemeMorphism)

Check warning on line 598 in experimental/Schemes/src/MorphismFromRationalFunctions.jl

View check run for this annotation

Codecov / codecov/patch

experimental/Schemes/src/MorphismFromRationalFunctions.jl#L598

Added line #L598 was not covered by tests
error("no method implemented to check properness")
end

@attr function is_isomorphism(phi::AbsCoveredSchemeMorphism)
@attr Any function is_isomorphism(phi::AbsCoveredSchemeMorphism)
error("no method implemented to check for being an isomorphism")
end

Expand Down
8 changes: 4 additions & 4 deletions experimental/Schemes/src/WeilDivisor.jl
Original file line number Diff line number Diff line change
Expand Up @@ -60,7 +60,7 @@
### forwarding of all essential functionality
underlying_cycle(D::WeilDivisor) = D.C

@attr function dim(I::AbsIdealSheaf)
@attr Any function dim(I::AbsIdealSheaf)
dims = [dim(I(U)) for U in affine_charts(scheme(I))]
return maximum(dims)
end
Expand Down Expand Up @@ -401,12 +401,12 @@
return result
end

@attr function has_dimension_leq_zero(I::Ideal)
@attr Any function has_dimension_leq_zero(I::Ideal)
is_one(I) && return true
return dim(I) <= 0
end

@attr function has_dimension_leq_zero(I::MPolyLocalizedIdeal)
@attr Any function has_dimension_leq_zero(I::MPolyLocalizedIdeal)

Check warning on line 409 in experimental/Schemes/src/WeilDivisor.jl

View check run for this annotation

Codecov / codecov/patch

experimental/Schemes/src/WeilDivisor.jl#L409

Added line #L409 was not covered by tests
R = base_ring(I)
P = base_ring(R)::MPolyRing
J = ideal(P, numerator.(gens(I)))
Expand All @@ -415,7 +415,7 @@
return dim(I) <= 0
end

@attr function has_dimension_leq_zero(I::MPolyQuoLocalizedIdeal)
@attr Any function has_dimension_leq_zero(I::MPolyQuoLocalizedIdeal)
R = base_ring(I)
P = base_ring(R)::MPolyRing
J = ideal(P, lifted_numerator.(gens(I)))
Expand Down
10 changes: 5 additions & 5 deletions experimental/Schemes/src/elliptic_surface.jl
Original file line number Diff line number Diff line change
Expand Up @@ -244,7 +244,7 @@ The first return value is the basis of the ambient space of `L`.
The second consists of additional generators for `L` coming from torsion sections.
The third is ``L``.
"""
@attr function algebraic_lattice(X::EllipticSurface)
@attr Any function algebraic_lattice(X::EllipticSurface)
return _algebraic_lattice(X,X.MWL)
end

Expand Down Expand Up @@ -335,7 +335,7 @@ end

Return the torsion part of the Mordell-Weil group of the generic fiber of ``S``.
"""
@attr function mordell_weil_torsion(S::EllipticSurface)
@attr Any function mordell_weil_torsion(S::EllipticSurface)
E = generic_fiber(S)
O = E([0,1,0])
N = trivial_lattice(S)[2]
Expand Down Expand Up @@ -729,7 +729,7 @@ Internal function. Returns a list consisting of:
- gram matrix
- fiber_components without multiplicities
"""
@attr function _trivial_lattice(S::EllipticSurface)
@attr Any function _trivial_lattice(S::EllipticSurface)
#=
inc_Y = S.inc_Y
X = codomain(inc_Y)
Expand Down Expand Up @@ -977,7 +977,7 @@ function fiber_components(S::EllipticSurface, P; algorithm=:exceptional_divisors
return fiber_components
end

@attr function exceptional_divisors(S::EllipticSurface)
@attr Any function exceptional_divisors(S::EllipticSurface)
PP = AbsIdealSheaf[]
@vprintln :EllipticSurface 2 "computing exceptional divisors"
for E in S.ambient_exceptionals
Expand Down Expand Up @@ -1107,7 +1107,7 @@ end
Return the zero section of the relatively minimal elliptic
fibration \pi\colon X \to C$.
"""
@attr zero_section(S::EllipticSurface) = _section(S, generic_fiber(S)([0,1,0]))
@attr Any zero_section(S::EllipticSurface) = _section(S, generic_fiber(S)([0,1,0]))

################################################################################
#
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -2,4 +2,4 @@
# Avoid computing the reduced structure by using fat_scheme
################################################################################

@attr dim(X::AbsAffineAlgebraicSet) = dim(fat_scheme(X))
@attr Any dim(X::AbsAffineAlgebraicSet) = dim(fat_scheme(X))
34 changes: 17 additions & 17 deletions src/AlgebraicGeometry/Schemes/AffineSchemes/Objects/Attributes.jl
Original file line number Diff line number Diff line change
Expand Up @@ -50,7 +50,7 @@

Return the total ring of fractions of the coordinate ring of `X`.
"""
@attr function total_ring_of_fractions(X::AbsAffineScheme)
@attr Any function total_ring_of_fractions(X::AbsAffineScheme)
return total_ring_of_fractions(OO(X))
end

Expand Down Expand Up @@ -196,15 +196,15 @@
return X
end

@attr function ambient_space(X::AffineScheme{BRT,RT}) where {BRT<:Field, RT <: Union{MPolyQuoRing,MPolyLocRing,MPolyQuoLocRing}}
@attr Any function ambient_space(X::AffineScheme{BRT,RT}) where {BRT<:Field, RT <: Union{MPolyQuoRing,MPolyLocRing,MPolyQuoLocRing}}
return variety(spec(ambient_coordinate_ring(X)), check=false)
end

@attr function ambient_space(X::AffineScheme{BRT,RT}) where {BRT, RT <: Union{MPolyQuoRing,MPolyLocRing,MPolyQuoLocRing}}
@attr Any function ambient_space(X::AffineScheme{BRT,RT}) where {BRT, RT <: Union{MPolyQuoRing,MPolyLocRing,MPolyQuoLocRing}}
return spec(ambient_coordinate_ring(X))
end

@attr function ambient_space(X::AbsAffineScheme{BRT,RT}) where {BRT, RT <: Union{MPolyQuoRing,MPolyLocRing,MPolyQuoLocRing}}
@attr Any function ambient_space(X::AbsAffineScheme{BRT,RT}) where {BRT, RT <: Union{MPolyQuoRing,MPolyLocRing,MPolyQuoLocRing}}
return ambient_space(underlying_scheme(X))
end

Expand Down Expand Up @@ -401,41 +401,41 @@
"""
dim(X::AbsAffineScheme)

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoLocRing})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoLocRing})

Check warning on line 404 in src/AlgebraicGeometry/Schemes/AffineSchemes/Objects/Attributes.jl

View check run for this annotation

Codecov / codecov/patch

src/AlgebraicGeometry/Schemes/AffineSchemes/Objects/Attributes.jl#L404

Added line #L404 was not covered by tests
error("Not implemented")
end

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:MPolyPowersOfElement}})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:MPolyPowersOfElement}})
return dim(closure(X))
end

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:Union{MPolyComplementOfPrimeIdeal, MPolyComplementOfKPointIdeal}}})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:Union{MPolyComplementOfPrimeIdeal, MPolyComplementOfKPointIdeal}}})
# Spec (R / I)_P
R = OO(X)
P = prime_ideal(inverted_set(R))
I = saturated_ideal(modulus(R))
return dim(I) - dim(P)
end

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyLocRing})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyLocRing})

Check warning on line 420 in src/AlgebraicGeometry/Schemes/AffineSchemes/Objects/Attributes.jl

View check run for this annotation

Codecov / codecov/patch

src/AlgebraicGeometry/Schemes/AffineSchemes/Objects/Attributes.jl#L420

Added line #L420 was not covered by tests
error("Not implemented")
end

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:MPolyPowersOfElement}})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:MPolyPowersOfElement}})
# zariski open subset of A^n
return dim(closure(X))
end

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:Union{MPolyComplementOfPrimeIdeal, MPolyComplementOfKPointIdeal}}})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyLocRing{<:Any,<:Any,<:MPolyRing,<:MPolyRingElem, <:Union{MPolyComplementOfPrimeIdeal, MPolyComplementOfKPointIdeal}}})
P = prime_ideal(inverted_set(OO(X)))
return codim(P)
end

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyRing})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyRing})
return dim(ideal(ambient_coordinate_ring(X), [zero(ambient_coordinate_ring(X))]))
end

@attr function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoRing})
@attr Any function dim(X::AbsAffineScheme{<:Ring, <:MPolyQuoRing})
return dim(modulus(OO(X)))
end

Expand Down Expand Up @@ -477,7 +477,7 @@
1
```
"""
@attr function codim(X::AbsAffineScheme)
@attr Any function codim(X::AbsAffineScheme)
return dim(ideal(ambient_coordinate_ring(X), [zero(ambient_coordinate_ring(X))])) - dim(X)
end

Expand Down Expand Up @@ -573,7 +573,7 @@

```
"""
@attr function reduced_scheme(X::AbsAffineScheme{<:Field, <:MPolyQuoLocRing})
@attr Any function reduced_scheme(X::AbsAffineScheme{<:Field, <:MPolyQuoLocRing})
if has_attribute(X, :is_reduced) && is_reduced(X)
return X, identity_map(X)
end
Expand All @@ -585,7 +585,7 @@
return Xred, inc
end

@attr function reduced_scheme(X::AbsAffineScheme{<:Field, <:MPolyQuoRing})
@attr Any function reduced_scheme(X::AbsAffineScheme{<:Field, <:MPolyQuoRing})
if has_attribute(X, :is_reduced) && is_reduced(X)
return X, identity_map(X)
end
Expand All @@ -597,7 +597,7 @@
end

## to make reduced_scheme agnostic for quotient ring
@attr function reduced_scheme(X::AbsAffineScheme{<:Field, <:MPAnyNonQuoRing})
@attr Any function reduced_scheme(X::AbsAffineScheme{<:Field, <:MPAnyNonQuoRing})
return X, ClosedEmbedding(X, ideal(OO(X), one(OO(X))), check=false)
end

Expand Down Expand Up @@ -873,7 +873,7 @@
```
"""
defining_ideal(X::AbsAffineScheme) = error("method not implemented for input of type $(typeof(X))")
@attr defining_ideal(X::AbsAffineScheme{<:Any, <:MPolyRing}) = ideal(OO(X), [zero(OO(X))])
@attr Any defining_ideal(X::AbsAffineScheme{<:Any, <:MPolyRing}) = ideal(OO(X), [zero(OO(X))])
defining_ideal(X::AbsAffineScheme{<:Any, <:MPolyQuoRing}) = modulus(OO(X))
defining_ideal(X::AbsAffineScheme{<:Any, <:MPolyLocRing}) = modulus(OO(X))
defining_ideal(X::AbsAffineScheme{<:Any, <:MPolyQuoLocRing}) = modulus(OO(X))
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -190,7 +190,7 @@ function dim(X::AbsCoveredScheme)
return get_attribute(X, :dim)::Int
end

@attr function singular_locus_reduced(X::AbsCoveredScheme)
@attr Any function singular_locus_reduced(X::AbsCoveredScheme)
D = IdDict{AbsAffineScheme, Ideal}()
for U in affine_charts(X)
_, inc_sing = singular_locus_reduced(U)
Expand Down Expand Up @@ -257,7 +257,7 @@ given by the pullback function
(y//z) -> 0
```
"""
@attr function singular_locus(
@attr Any function singular_locus(
X::AbsCoveredScheme;
)
D = IdDict{AbsAffineScheme, Ideal}()
Expand Down
4 changes: 2 additions & 2 deletions src/AlgebraicGeometry/Schemes/Gluing/Attributes.jl
Original file line number Diff line number Diff line change
Expand Up @@ -44,7 +44,7 @@ end
Return the gluing `H` with `patches`, `gluing_domains`,
and `gluing_morphisms` in opposite order compared to `G`.
"""
@attr function inverse(G::AbsGluing)
@attr Any function inverse(G::AbsGluing)
Ginv = inverse(underlying_gluing(G))
set_attribute!(Ginv, :inverse, G)
set_attribute!(G, :inverse, Ginv)
Expand All @@ -57,7 +57,7 @@ end
patches(G::Gluing) = G.X, G.Y
gluing_morphisms(G::Gluing) = G.f, G.g
gluing_domains(G::Gluing) = domain(G.f), domain(G.g)
@attr function inverse(G::Gluing)
@attr Any function inverse(G::Gluing)
Ginv = Gluing(G.Y, G.X, G.g, G.f, check=false)
set_attribute!(Ginv, :inverse, G)
return Ginv
Expand Down
Original file line number Diff line number Diff line change
@@ -1,7 +1,7 @@
########################################################################
# Properties of PrincipalOpenSubsets #
########################################################################
@attr function is_dense(U::PrincipalOpenSubset)
@attr Any function is_dense(U::PrincipalOpenSubset)
return !is_zero_divisor(complement_equation(U))
end

Original file line number Diff line number Diff line change
Expand Up @@ -15,7 +15,7 @@
return map_on_affine_cones(f) == map_on_affine_cones(g)
end

@attr function covered_scheme_morphism(
@attr Any function covered_scheme_morphism(
f::AbsProjectiveSchemeMorphism{<:Any, <:Any, <:Any, Nothing} # No map on base rings
)
PX = domain(f)
Expand Down Expand Up @@ -114,7 +114,7 @@
3: [(x//z), (y//z)]
```
"""
@attr function covered_scheme_morphism(
@attr Any function covered_scheme_morphism(

Check warning on line 117 in src/AlgebraicGeometry/Schemes/ProjectiveSchemes/Morphisms/Methods.jl

View check run for this annotation

Codecov / codecov/patch

src/AlgebraicGeometry/Schemes/ProjectiveSchemes/Morphisms/Methods.jl#L117

Added line #L117 was not covered by tests
f::AbsProjectiveSchemeMorphism
) # with map on the base rings
PX = domain(f)
Expand Down
Loading
Loading