6
struct Point
   x :: Int
   y :: Int
end

If I have an array a of type Array{Point}, is there a better way (either syntactically cleaner or faster) to do field access than this?

(p->p.x).(a)

3 Answers 3

6

Four options are:

1) (p->p.x).(a)

2) [ z.x for z in a ]

3) map(p->p.x, a)

4) getfield.(a, x) (suggested by Michael in the comments)

The first 3 will be about as efficient as each other, so it comes down to personal preference. Method 4 is a bit slower on my machine, but as the other answerer (Gnimuc) states, this will hopefully be fixed up by issue #22710.

Note, I often also find the following method useful:

getx(a::Vector{Point}, inds=1:length(a))::Vector{Int} = [ a[i].x for i in inds ]

which allows you to pull out the x field for an arbitrary set of input indices. (although it will be slightly slower than the above 3 methods for pulling out every index). My metaprogramming sucks, but you can actually do something like this:

for fn in fieldnames(Point)
    eval(parse("get$(fn)(a::Vector{Point}, inds=1:length(a))::Vector{Int} = [ a[i].$(fn) for i in inds ]"))
end

which will get you the above getx function but for every fieldname in the input type...

5
  • 3
    Or getfield.(a,x) Oct 19, 2017 at 5:54
  • 1
    @MichaelK.Borregaard Thanks. Added to answer. Oct 19, 2017 at 10:11
  • 1
    @MichaelK.Borregaard Do you mean the discussion in #16285? I'm not sure what the status of that is at the moment... Oct 19, 2017 at 22:31
  • @MichaelK.Borregaard Should it be getfield.(a, :x) on Julia v"1.0.1"? And on my macOS 10.14, Julia v"1.0.1", the getfield.(a, :x) turns out to be the most efficient now.
    – Jadim
    Nov 8, 2018 at 21:48
  • umm, I believe on Julia 1.1.1 the most efficient way is getproperty.(a, :x) on a CentOS 6 node Jul 19, 2019 at 7:05
5

The cleanest way is to define your own operator which was originally posted by @pabloferz on Discourse: https://discourse.julialang.org/t/broadcast-over-getfield-in-0-6/2335/4

struct Point
   x :: Int
   y :: Int
end

a = [Point(i,j) for i = 1:10 for j = 1:10]

↦(val, s) = getfield(val, s)
a .↦ :x
a .↦ :y

UPDATE:

For now, a quick benchmark shows (p->p.x).(a) is the fastest among other solutions if a is small. when the length of a grows large, both map and comprehension are slightly faster than (p->p.x).(a):

julia> versioninfo()
Julia Version 0.6.0
Commit 903644385b* (2017-06-19 13:05 UTC)
......

julia> @btime (p->p.x).($a)
  88.283 ns (1 allocation: 896 bytes)

julia> @btime [ z.x for z in $a ]
  109.578 ns (2 allocations: 912 bytes)

julia> @btime map(p->p.x, $a)
  163.485 ns (3 allocations: 944 bytes)

julia> @btime getfield.($a,:x)
  1.586 μs (101 allocations: 4.00 KiB)

julia> a = [Point(i,j) for i = 1:100 for j = 1:100]

julia> @btime getfield.($a,:x);
  160.845 μs (10002 allocations: 390.70 KiB)

julia> @btime (p->p.x).($a);
  9.817 μs (2 allocations: 78.20 KiB)

julia> @btime map(p->p.x, $a);
  8.306 μs (3 allocations: 78.22 KiB)

julia> @btime [ z.x for z in $a ];
  8.306 μs (3 allocations: 78.22 KiB)

getfield is always 10~20x slower than other methods, so the cleanest way is not performant. But it seems that the situation is going to be improved in the future, we'll have a syntax sugar for this?: Make .a syntactic sugar for i->i.a #22710.

4
  • Interestingly, I got (p->p.x).(a) to be the slowest of the three on my machine, although I used an input vector of length 1000, rather than a 10x10 matrix... Oct 19, 2017 at 4:02
  • @ColinTBowers yes, I got the same result with a 100x100 array, thanks for pointing out.
    – Gnimuc
    Oct 19, 2017 at 4:23
  • @Gnimuc what is μμs?
    – Liso
    Oct 19, 2017 at 8:11
  • @Liso ah, they're just us, fixed. I was copy-pasting from REPL on a Windows machine that doesn't correctly handle Latex symbols.
    – Gnimuc
    Oct 19, 2017 at 8:23
0

As you also asked about a syntactically clean way. You can define the following function

function Base.getproperty(array::Array, field::Symbol)
    return getfield.(array, field)
end

This way, your access simply becomes a.x. This is the same behavior as seen in, e.g., Matlab.

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