https://github.com/JuliaLang/julia
Tip revision: d55cadc350d426a95fd967121ba77494d08364c8 authored by Alex Arslan on 28 May 2018, 20:20:40 UTC
Set VERSION to 0.6.3 release (#27283)
Set VERSION to 0.6.3 release (#27283)
Tip revision: d55cadc
set.jl
# This file is a part of Julia. License is MIT: https://julialang.org/license
mutable struct Set{T} <: AbstractSet{T}
dict::Dict{T,Void}
Set{T}() where {T} = new(Dict{T,Void}())
Set{T}(itr) where {T} = union!(new(Dict{T,Void}()), itr)
end
Set() = Set{Any}()
Set(itr) = Set{eltype(itr)}(itr)
function Set(g::Generator)
T = _default_eltype(typeof(g))
(isleaftype(T) || T === Union{}) || return grow_to!(Set{T}(), g)
return Set{T}(g)
end
eltype(::Type{Set{T}}) where {T} = T
similar(s::Set{T}) where {T} = Set{T}()
similar(s::Set, T::Type) = Set{T}()
function show(io::IO, s::Set)
print(io,"Set")
if isempty(s)
print(io,"{",eltype(s),"}()")
return
end
print(io,"(")
show_vector(io,s,"[","]")
print(io,")")
end
isempty(s::Set) = isempty(s.dict)
length(s::Set) = length(s.dict)
in(x, s::Set) = haskey(s.dict, x)
push!(s::Set, x) = (s.dict[x] = nothing; s)
pop!(s::Set, x) = (pop!(s.dict, x); x)
pop!(s::Set, x, deflt) = x in s ? pop!(s, x) : deflt
pop!(s::Set) = (idx = start(s.dict); val = s.dict.keys[idx]; _delete!(s.dict, idx); val)
delete!(s::Set, x) = (delete!(s.dict, x); s)
copy(s::Set) = union!(similar(s), s)
sizehint!(s::Set, newsz) = (sizehint!(s.dict, newsz); s)
empty!(s::Set) = (empty!(s.dict); s)
rehash!(s::Set) = (rehash!(s.dict); s)
start(s::Set) = start(s.dict)
done(s::Set, state) = done(s.dict, state)
# NOTE: manually optimized to take advantage of Dict representation
next(s::Set, i) = (s.dict.keys[i], skip_deleted(s.dict,i+1))
union() = Set()
union(s::Set) = copy(s)
function union(s::Set, sets::Set...)
u = Set{join_eltype(s, sets...)}()
union!(u,s)
for t in sets
union!(u,t)
end
return u
end
const ∪ = union
union!(s::Set, xs) = (for x=xs; push!(s,x); end; s)
union!(s::Set, xs::AbstractArray) = (sizehint!(s,length(xs));for x=xs; push!(s,x); end; s)
join_eltype() = Bottom
join_eltype(v1, vs...) = typejoin(eltype(v1), join_eltype(vs...))
intersect(s::Set) = copy(s)
function intersect(s::Set, sets::Set...)
i = similar(s)
for x in s
inall = true
for t in sets
if !in(x,t)
inall = false
break
end
end
inall && push!(i, x)
end
return i
end
const ∩ = intersect
function setdiff(a::Set, b::Set)
d = similar(a)
for x in a
if !(x in b)
push!(d, x)
end
end
d
end
setdiff!(s::Set, xs) = (for x=xs; delete!(s,x); end; s)
==(l::Set, r::Set) = (length(l) == length(r)) && (l <= r)
<( l::Set, r::Set) = (length(l) < length(r)) && (l <= r)
<=(l::Set, r::Set) = issubset(l, r)
function issubset(l, r)
for elt in l
if !in(elt, r)
return false
end
end
return true
end
const ⊆ = issubset
⊊(l::Set, r::Set) = <(l, r)
⊈(l::Set, r::Set) = !⊆(l, r)
⊇(l, r) = issubset(r, l)
⊉(l::Set, r::Set) = !⊇(l, r)
⊋(l::Set, r::Set) = <(r, l)
"""
unique(itr)
Returns an array containing one value from `itr` for each unique value,
as determined by [`isequal`](@ref).
```jldoctest
julia> unique([1; 2; 2; 6])
3-element Array{Int64,1}:
1
2
6
```
"""
function unique(itr)
T = _default_eltype(typeof(itr))
out = Vector{T}()
seen = Set{T}()
i = start(itr)
if done(itr, i)
return out
end
x, i = next(itr, i)
if !isleaftype(T)
S = typeof(x)
return _unique_from(itr, S[x], Set{S}((x,)), i)
end
push!(seen, x)
push!(out, x)
return unique_from(itr, out, seen, i)
end
_unique_from(itr, out, seen, i) = unique_from(itr, out, seen, i)
@inline function unique_from{T}(itr, out::Vector{T}, seen, i)
while !done(itr, i)
x, i = next(itr, i)
S = typeof(x)
if !(S === T || S <: T)
R = typejoin(S, T)
seenR = convert(Set{R}, seen)
outR = convert(Vector{R}, out)
if !in(x, seenR)
push!(seenR, x)
push!(outR, x)
end
return _unique_from(itr, outR, seenR, i)
end
if !in(x, seen)
push!(seen, x)
push!(out, x)
end
end
return out
end
"""
unique(f, itr)
Returns an array containing one value from `itr` for each unique value produced by `f`
applied to elements of `itr`.
```jldoctest
julia> unique(isodd, [1; 2; 2; 6])
2-element Array{Int64,1}:
1
2
```
"""
function unique(f::Callable, C)
out = Vector{eltype(C)}()
seen = Set()
for x in C
y = f(x)
if !in(y, seen)
push!(seen, y)
push!(out, x)
end
end
out
end
"""
allunique(itr) -> Bool
Return `true` if all values from `itr` are distinct when compared with [`isequal`](@ref).
```jldoctest
julia> a = [1; 2; 3]
3-element Array{Int64,1}:
1
2
3
julia> allunique([a, a])
false
```
"""
function allunique(C)
seen = Set{eltype(C)}()
for x in C
if in(x, seen)
return false
else
push!(seen, x)
end
end
true
end
allunique(::Set) = true
allunique(r::Range{T}) where {T} = (step(r) != zero(T)) || (length(r) <= 1)
function filter(f, s::Set)
u = similar(s)
for x in s
if f(x)
push!(u, x)
end
end
return u
end
function filter!(f, s::Set)
for x in s
if !f(x)
delete!(s, x)
end
end
return s
end
const hashs_seed = UInt === UInt64 ? 0x852ada37cfe8e0ce : 0xcfe8e0ce
function hash(s::Set, h::UInt)
h = hash(hashs_seed, h)
for x in s
h ⊻= hash(x)
end
return h
end
convert(::Type{Set{T}}, s::Set{T}) where {T} = s
convert(::Type{Set{T}}, x::Set) where {T} = Set{T}(x)