In numpy you can do np.allclose(A, B)
to see if the arrays A & B are close.
Is there any function in Julia to do so ?
(For the obsolete version of this answer, see below the horizontal line.)
An array version of isapprox
was introduced in Julia 0.4, so you can now write:
isapprox(A, B)
Like in the scalar case, you can specify the relative tolerance rtol
and the absolute tolerance atol
as keyword arguments.
But note that unlike NumPy's allclose
(and the previous solution of this answer below), array-isapprox
calculates a norm of the difference first, and then decides for the resulting value. (Appearently, checking isapprox
pointwise is wrong.) By default, LinearAlgebra.norm
is used, which is the 2-norm for vectors and the Froebenius norm for matrices, but you can override this behavior using the norm
keyword argument.
By the way, as mentioned in the linked pull request, in tests you can write @test isapprox(A, B)
, so @test_approx_eq
is now obsolete and deprecated as of 0.6. Also, there is A ≈ B
, which is equivalent to isapprox(A, B)
and can be used like any comparison operator: a < b ≈ c ≤ d
.
For reference, this is the previous, outdated version of this post:
For single numbers, isapprox
is defined. If you want to extend this to an element-wise comparison on Array
s, you could use:
all(x -> isapprox(x...), zip(A, B))
all(x -> isapprox(x...), zip(A, A + 1e-5)) # => false
all(x -> isapprox(x...), zip(A, A + 1e-6)) # => true
≈
(typed as \approx
<tab> at the REPL) when you're using the default tolerances.
There is no function called allclose
that ships with Julia:
julia> allclose
ERROR: allclose not defined
I don't know whether an existing Julia function provides the functionality you want but, based on the numpy.allclose
documentation, you can implement one yourself (complete with keyword arguments):
function allclose(a, b; rtol = 1e-5, atol = 1e-8)
return all(abs(a - b) .<= (atol + rtol * abs(b)))
end
julia> A = rand(5, 5)
5x5 Array{Float64,2}:
0.0833821 0.722352 0.474616 0.0997349 0.352403
0.557657 0.199624 0.748646 0.838296 0.0396182
0.9716 0.230623 0.215245 0.689457 0.261951
0.64731 0.0799202 0.877895 0.582062 0.601394
0.875966 0.776157 0.664024 0.0996859 0.12747
julia> allclose(A, A + 1e-4)
false
julia> allclose(A, A + 1e-6)
false
julia> allclose(A, A + 1e-8)
true
julia> allclose(A, A + 1, rtol = 1)
true
If you're writing tests, using Base.Test
and then @test_approx_eq A B
should work.