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Add type
NegInf
representing negative infinity
Also expand the functionality of `PosInf` to match.
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export PosInf, inf, IntExt, is_infinite | ||
export PosInf, NegInf, inf, IntExt, is_infinite | ||
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# This is a type for positive infinity for use in valuations. | ||
""" | ||
PosInf | ||
This singleton type represents positive infinity, as in: a value larger | ||
than any real number. For use in valuations and elsewhere. | ||
See [`NegInf`](@ref). | ||
""" | ||
struct PosInf | ||
end | ||
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const inf = PosInf() | ||
""" | ||
NegInf | ||
+(::Int, ::PosInf) = inf | ||
This singleton type represents negative infinity, as in: a value smaller | ||
than any real number. For use in valuations and elsewhere. | ||
+(::PosInf, ::Int) = inf | ||
See [`PosInf`](@ref). | ||
""" | ||
struct NegInf | ||
end | ||
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+(::PosInf, ::PosInf) = inf | ||
# type union for convenience later on | ||
const AnyInf = Union{PosInf,NegInf} | ||
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-(::PosInf, ::Int) = inf | ||
# another convenience type union | ||
# TODO: maybe deprecate this one, or at least rename it; the current one seems | ||
# somewhat arbitrary now that we also have negative infinity | ||
const IntExt = Union{Int,PosInf} | ||
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Base.max(::Int, ::PosInf) = inf | ||
const inf = PosInf() # TODO: for backwards compatibility; deprecate? | ||
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Base.max(::PosInf, ::Int) = inf | ||
#const infinity = PosInf() # FIXME: can't have this as we already have `infinity(C::CalciumField)` | ||
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Base.isless(::Int, ::PosInf) = true | ||
######################################## | ||
# | ||
# basics | ||
# | ||
######################################## | ||
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Base.isless(x::Rational{Int}, ::PosInf) = denominator(x) != 0 | ||
# match the hash values of Inf and -Inf, as we also compare equal to them | ||
Base.hash(::PosInf, h::UInt) = hash(Inf, h) | ||
Base.hash(::NegInf, h::UInt) = hash(-Inf, h) | ||
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Base.isless(::PosInf, ::PosInf) = false | ||
Base.show(io::IO, ::PosInf) = print(io, "infinity") # FIXME: if we can't have `infinity` as a global, maybe better print as `inf`??? | ||
Base.show(io::IO, ::NegInf) = print(io, "-infinity") | ||
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Base.isless(::PosInf, ::Int) = false | ||
Base.one(::AnyInf) = 1 | ||
Base.zero(::AnyInf) = 0 | ||
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Base.isless(::PosInf, ::Rational{Int}) = false | ||
######################################## | ||
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Base.isfinite(::PosInf) = false | ||
Base.signbit(::PosInf) = false | ||
Base.signbit(::NegInf) = true | ||
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Base.isinf(::PosInf) = true | ||
######################################## | ||
# | ||
# comparison | ||
# | ||
######################################## | ||
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Base.isone(::PosInf) = false | ||
Base.:(==)(inf1::AnyInf, inf2::AnyInf) = signbit(inf1) == signbit(inf2) | ||
Base.:(==)(x::AnyInf, y::Real) = isinf(y) && signbit(y) == signbit(x) | ||
Base.:(==)(y::Real, x::AnyInf) = x == y | ||
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Base.iszero(::PosInf) = false | ||
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Base.one(::PosInf) = 1 | ||
Base.isless(x::Real, ::PosInf) = isfinite(x) || signbit(x) | ||
Base.isless(::PosInf, ::Real) = false | ||
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Base.zero(::PosInf) = 0 | ||
Base.isless(::Real, ::NegInf) = false | ||
Base.isless(::NegInf, x::Real) = isfinite(x) || !signbit(x) | ||
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Base.isless(::PosInf, ::ZZRingElem) = false | ||
Base.isless(inf1::AnyInf, inf2::AnyInf) = signbit(inf1) && !signbit(inf2) | ||
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Base.isless(::ZZRingElem, ::PosInf) = true | ||
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Base.isless(::PosInf, ::QQFieldElem) = false | ||
Base.isless(::PosInf, ::Union{ZZRingElem,QQFieldElem}) = false | ||
Base.isless(::Union{ZZRingElem,QQFieldElem}, ::PosInf) = true | ||
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Base.isless(::QQFieldElem, ::PosInf) = true | ||
Base.isless(::NegInf, ::Union{ZZRingElem,QQFieldElem}) = true | ||
Base.isless(::Union{ZZRingElem,QQFieldElem}, ::NegInf) = false | ||
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const IntExt = Union{Int,PosInf} | ||
######################################## | ||
# | ||
# other predicates | ||
# | ||
######################################## | ||
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Base.isfinite(::AnyInf) = false | ||
Base.isinf(::AnyInf) = true | ||
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Base.isone(::AnyInf) = false | ||
Base.iszero(::AnyInf) = false | ||
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is_positive(::PosInf) = true | ||
is_positive(::NegInf) = false | ||
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is_negative(::PosInf) = false | ||
is_negative(::NegInf) = true | ||
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@doc raw""" | ||
is_infinite(x::Any) -> Bool | ||
Tests whether $x$ is infinite, by returning `!isfinite(x)`. | ||
Test whether $x$ is infinite. | ||
""" | ||
is_infinite(x::Any) = !isfinite(x) | ||
# TODO: should is_infinite become a synonym for `isinf` ??? | ||
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######################################## | ||
# | ||
# arithmetic | ||
# | ||
######################################## | ||
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# unary minus | ||
Base.:-(::PosInf) = NegInf() | ||
Base.:-(::NegInf) = inf | ||
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# binary operations | ||
Base.:+(::IntegerUnion, inf::AnyInf) = inf | ||
Base.:+(inf::AnyInf, ::IntegerUnion) = inf | ||
Base.:+(inf1::AnyInf, inf2::AnyInf) = signbit(inf1) == signbit(inf2) ? inf1 : error("inf - inf is undefined") | ||
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Base.:-(inf::AnyInf, ::IntegerUnion) = inf | ||
Base.:-(::IntegerUnion, inf::AnyInf) = -inf | ||
Base.:-(inf1::AnyInf, inf2::AnyInf) = inf1 + (-inf2) |
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