@code_warntype returns type instability: AbstractArray{T,1}

Question

When trying to clean up the code using @code_warntype I get the type instability of ::AbstractArray{T,1} when it is not expected.

A data frame is the argument of the function FUNC1, and a particular COLUMN in it is used within the function. I've defined the type for this COLUMN within the function as Array{Float64,1}. But, when I run @code_warntype on the function, ::AbstractArray{T,1} appears in the output.

function FUNC1(df::DataFrame)
    df_COL=df[:COLUMN]::Array{Float64,1}

.......
end

Expected result is that there should be no type instability because the type has been specified for that column.

Actual results:

Body::Tuple{Float64,Float64}
│           159 1 ── %1   = invoke Base.getindex(_2::DataFrame, :COLUMN::Symbol)::AbstractArray{T,1} where T
│               │           (Core.typeassert)(%1, Array{Float64,1})
│               │    %3   = π (%1, Array{Float64,1})

Answer 1

That's printing out exactly as I'd expect. There are three things that are happening here:

• First the indexing: %1 = invoke Base.getindex — this is doing the indexing. It can return a vector of any type. This is indeed type-unstable.
• Then the typeassert: (Core.typeassert)(%1, Array{Float64,1}) — this ensures that what getindex returned (in %1) is a Vector{Float64}. If it's not, Julia will throw an error.
• And now the payoff: %3 = π (%1, Array{Float64,1}) — now that vector can be considered a Vector{Float64} since every other type would result in an error. From here on out, computations with the vector should be type-stable.

Adding type assertions like that don't "fix" the instability at its root, they simply patch it up so everything afterwards is fast.