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)
end
return x
end
```

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.

`clamp!(x, -Inf, 5)`

.