# can a variable have multiple values

In algebra if I make the statement x + y = 3, the variables I used will hold the values either 2 and 1 or 1 and 2. I know that assignment in programming is not the same thing, but I got to wondering. If I wanted to represent the value of, say, a quantumly weird particle, I would want my variable to have two values at the same time and to have it resolve into one or the other later. Or maybe I'm just dreaming?

Is it possible to say something like `i = 3 or 2;`?

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actually, in that statement x and y could be almost anything! For example, x = -3, y = 6; x = 0, y = 3; x = 4, y = -1 etc... – Jason Coco Nov 20 '08 at 7:50
Ha oh yeah! Well, I don't know hardly nothing about none of that math stuff you see... So sometimes I get my truth confused with my lies! Thanks though! – Ziggy Nov 20 '08 at 8:12

You can't do this with native types, but there's nothing stopping you from creating a variable object (presuming you are using an OO language) which has a range of values or even a probability density function rather than an actual value.

You will also need to define all the mathematical operators between your variables and your variables and native scalars. Same goes for the equality and assignment operators.

numpy arrays do something similar for vectors and matrices.

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I'm not sure why you made the comment about using an OO language. It would be possible to make a library in just about any language to handle indeterminate variable types. – Trent Mar 3 '09 at 22:56

This is one of the features planned for Perl 6 (junctions), with syntax that should look like `my \$a = 1|2|3`;

If ever implemented, it would work intuitively, like `\$a==1` being true at the same time as `\$a==2`. Also, for example, `\$a+1` would give you a value of `2|3|4`.

This feature is actually available in Perl5 as well through Perl6::Junction and Quantum::Superpositions modules, but without the syntax sugar (through 'functions' `all` and `any`).

At least for comparison (`b < any(1,2,3)`) it was also available in Microsoft experimental language, however it was not documented anywhere (I just tried it when I was looking at Cω and it just worked).

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sweet! This... Perl, she sounds pretty fine. – Ziggy Nov 20 '08 at 8:11
(1|2|3)+1=(1+1|2+1|3+1)=(2|4|5)? I think you have an error in there. :o) – Michael Madsen Nov 20 '08 at 8:14
Michael, thanks :). Fixed. – Andrey Shchekin Nov 21 '08 at 8:29

That's also the kind of thing you can do in Prolog. You define rules that constraint your variables and then let Prolog resolve them ...

It takes some time to get used to it, but it is wonderful for certain problems once you know how to use it ...

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Damien Conways Quantum::Superpositions might do what you want,

https://metacpan.org/pod/Quantum::Superpositions

You might need your crack-pipe however.

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ha ha ha yeah, this is what I'm talking about. – Ziggy Nov 20 '08 at 8:10

What you're asking seems to be how to implement a Fuzzy Logic system. These have been around for some time and you can undoubtedly pick up a library for the common programming languages quite easily.

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You could use a struct and handle the operations manualy. Otherwise, no a variable only has 1 value at a time.

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A variable is nothing more than an address into memory. That means a variable describes exactly one place in memory (length depending on the type). So as long as we have no "quantum memory" (and we dont have it, and it doesnt look like we will have it in near future), the answer is a NO. If you want to program and to modell this behaviour, your way would be to use a an array (with length equal to the number of max. multiple values). With this comes the increased runtime, hence the computations must be done on each of the values (e.g. x+y, must compute with 2 different values x1+y1, x2+y2, x1+y2 and x2+y1).

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In Perl , you can . If you use Scalar::Util , you can have a var take 2 values . One if it's used in string context , and another if it's used in a numerical context .

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man, that's pretty cool! I think I want to check out Perl! – Ziggy Nov 20 '08 at 8:02