I would like to take an array x and change all numbers greater than 5 to 5. What is the standard way to do this in one line?

Below is some code that does this in several lines. This question on logical indexing is related but appears to concern selection rather than assignment. Thanks

x = [1 2 6 7]
for i in 1:length(x)
    if x[i] >= 5 
        x[i] = 5

Desired output: x = [1 2 5 5]

  • Note that in Julia, even though there are answers to this, you don't need them for performance. Loops are fast. Jan 25, 2021 at 6:10
  • Too short for an answer, but this works: clamp!(x, -Inf, 5). Jan 26, 2021 at 19:21

2 Answers 2


The broadcast operator . works with any function, including relational operators, and it also works with assignment. Hence an intuitive one-liner is:

x[x .> 5] .= 5

This part x .> 5 broadcasts > 5 over x, resulting in a vector of booleans indicating elements greater than 5. This part .= 5 broadcasts the assignment of 5 across all elements indicated by x[x .> 5].

However, inspired by the significant speed-up in Benoit's very cool answer below (please do check it out) I decided to also add an optimized variant with a speed test. The above approach, while very intuitive looking, is not optimal because it allocates a temporary array of booleans for the indices. A (more) optimal approach that avoids temporary allocation, and as a bonus will work for any predicate (conditional) function is:

function f_cond!(x::Vector{Int}, f::Function, val::Int)
    @inbounds for n in eachindex(x)
        f(x[n]) && (x[n] = val)
    return x

So using this function we would write f_cond!(x, a->a>5, 5) which assigns 5 to any element for which the conditional (anonymous) function a->a>5 evaluates to true. Obviously this solution is not a neat one-liner, but check out the following speed tests:

julia> using BenchmarkTools

julia> x1 = rand(1:10, 100);

julia> x2 = copy(x1);

julia> @btime $x1[$x1 .> 5] .= 5;
  327.862 ns (8 allocations: 336 bytes)

julia> @btime f_cond!($x2, a->a>5, 5);
  15.067 ns (0 allocations: 0 bytes)

This is just ludicrously faster. Also, you can just replace Int with T<:Any. Given the speed-up, one might wonder if there is a function in Base that already does this. A one-liner is:

map!(a->a>5 ? 5 : a, x, x)

and while this significantly speeds up over the first approach, it falls well short of the second.

Incidentally, I felt certain this must be a duplicate to another StackOverflow question, but 5 minutes searching didn't reveal anything.


You can broadcast min as well:

x .= min.(x, 5)

Note that this is (slightly) more efficient than using x[x .> 5] .= 5 because it does not allocate the temporary array of Booleans, x .> 5, and it can be automatically vectorized, with a single pass over the memory (as per Oscar's comment below):

julia> using BenchmarkTools

julia> x = [1 2 6 7] ; @btime $x .= min.($x, 5) ; # fast, no allocations
  19.144 ns (0 allocations: 0 bytes)

julia> x = [1 2 6 7] ; @btime $x[$x .> 5] .= 5 ; # slower, allocates
  148.678 ns (5 allocations: 304 bytes)
  • 1
    This answer is almost certainly the faster answer Jan 25, 2021 at 6:10
  • 1
    The other reason for the faster speed is that this solution can be automatically vectorized, and only makes one pass over the memory. Jan 25, 2021 at 6:19
  • 1
    Nice tip! Adding that to the answer :) Jan 25, 2021 at 6:20
  • 2
    Oh this is very neat! Upvoted. But don't you mean min, not max? BTW given the significant increase in performance demonstrated in this answer I decided to edit mine to include the general case Jan 25, 2021 at 10:40
  • 1
    You can also write clamp!(x, -Inf, 5). I don't think it's quicker, but it might be easier to read -- more obviously an upper bound. Apparently I'm not the only one who has to read min vs. max twice to check which way around things should be.
    – mcabbott
    Jan 25, 2021 at 15:05

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