I would like to declare a table with "indexes" type
tuple PM
{
npm
nvm
}
indexes=PM[]
push!(indexes,PM(1,"s"))
push!(indexes,PM(2,"s"))
push!(indexes,PM(1,"m"))
push!(indexes,PM(2,"m"))
int countPVX[indexes]
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what problems have you faced with your approach?– xashruFeb 3, 2019 at 13:59
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3@Rym, currently it is not clear what exactly you are asking. Could you please provide a minimal example of actual Julia code showing what you want, and what doesn't work or what error messages you are getting? Ideally in a form others can copy and paste into their REPL.– phipsgablerFeb 3, 2019 at 14:57
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2xref: discourse.julialang.org/t/…– carstenbauerFeb 3, 2019 at 15:50
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While it is not a well worded question, it really is quite obvious what they probably want. I hope the downvoters cut some slack. I can attest to Julia being confusing the first time around to use...– Charlie CrownFeb 3, 2019 at 17:57
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7@CharlieCrown I don't up- or downvote to be nice or mean. It is not a good question, it shows nearly zero effort on the part of the person who posted it (neither in phrasing the question, nor in even learning the most basic syntax), and it is not useful for others. It has also been cross-posted to at least two other fora, with no explanation or follow-up. My down-vote remains until the poster shows some good-faith effort to follow up or improve the question.– DNFFeb 3, 2019 at 23:11
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1 Answer
I am not exactly sure of what you are after, but you could make a list
Edit:
as recommended by SalchiPapa, and also as in the original post... indexes = PM[]
struct PM
npm
nvm
end
indexes = PM[]
push!(indexes,PM(1,"s"))
push!(indexes,PM(2,"s"))
push!(indexes,PM(1,"m"))
push!(indexes,PM(2,"m"))
println(indexes)
The output is a list of these structs
Any[PM(1, "s"), PM(2, "s"), PM(1, "m"), PM(2, "m")]
Note, if you know what types npm and nvm are, I recommend stating them, i.e., npm looks like it is always an integer, and nvm looks like it is always a String
struct PM
npm::Int64
nvm::String
end
you can access these elements simple as, for example:
indexes[2].npm
which in this case outputs 2 and indexes[2].nvm would output s.
answered Feb 3, 2019 at 17:54
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2
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Good to know... I have only been doing Julia for a couple of weeks myself Feb 4, 2019 at 5:25
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1Despite what I wrote above, this is a decent interpretation given the limited information. But using
indexes = PM[], as SalchiPapa suggested, would be a huge improvement indeed. Feb 4, 2019 at 9:25 -
The more I look at it, it looks like it is supposed to be an array of [arrays of composite types]. My answer is a solution to the title of the problem... Feb 4, 2019 at 14:56
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You could also type the array literal as is:
[PM(1, "s"), PM(2, "s"), PM(1, "m"), PM(2, "m")]in one go, instead of pushing the elements. This will infer the type of the array to beVector{PM}, instead ofVector{Any}. Feb 5, 2019 at 20:09