# \$Assumption for multiple variables

I want to restrict my variables to certain ranges for my entire notebook, is there a way I can do that in one go without entering a different \$assumption line for every variable?

Edit: I want to define the domain of variables for all calculations in my notebook (googling helped me frame my needs better!)

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Just to understand a little better. Suppose you do Restrict[a,{0,1,2,3}] with a certain function Restrict[]. What is your expected behaviour if you later do a=5 ? –  belisarius Nov 30 '10 at 17:38
How about `\$Assumptions = Element[#, Reals] & /@ {a, b, c, d}` –  Yaroslav Bulatov Nov 30 '10 at 19:22
@Yaroslav That is actually equivalent to `\$Assumptions = Element[{a, b, c, d}, Reals]`, but for more general range restrictions, you're right. A simple `Map` should work. –  Simon Dec 1 '10 at 2:35
Can you be more specific? Exactly what domain are you working with and is it the same for all variables? –  Simon Dec 1 '10 at 2:36

If all of your variables are going to be (for example) `Real`, then you can intercept the creation of new symbols and add that assumption to `\$Assumptions`. E.g.

``````\$Assumptions = True;
\$NewSymbol = If[#2 === "Global`",
Print["Created new Global` variable named ", #1, ". It is assumed to be real."];
\$Assumptions = \$Assumptions && Element[Symbol[#2 <> #1], Reals],
Null (* other, probably a system symbol is created *)] &;
``````

Then if you create a new symbol that you don't want to be real, then you could follow up with something like `\$Assumptions = Most[\$Assumptions]`.

Note: I don't necessarily claim that this approach is a good idea... It's probably best to just define the `\$Assumptions` for the variables you are going to use. This can be done programmatically using `Map`, `Table`, etc.

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I remember working in some version of BASIC where the first char of a variable name defined its type ... –  belisarius Dec 3 '10 at 21:36
@belisarius Yeah... that brings back some memories. It would be quite easy to modify my answer to behave like that. –  Simon Dec 4 '10 at 0:44
@simon & belisarius If you were ever forced to worked with M\$-style C-code, you would see the practice of naming by type taken to its horrible extreme. Google/Wikipedia tells me it even has a name: Hungarian Notation. –  Janus Dec 3 '14 at 10:23

Globally define as follows

``````\$Assumptions = b >= 0 && c >= 0 && {u11, u13, u14} \[Element] Reals
``````

then use globally defined variables as follows

``````Simplify[expression  with global variables]
``````
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