# Multiple statements in mathematica function

I wanted to know, how to evaluate multiple statements in a function in Mathematica.
E.g.

f[x_]:=x=x+5 and then return x^2

I know this much can be modified as (x+5)^2 but originally I wanted to read data from the file in the function and print the result after doing some data manipulation.

If you want to group several commands and output the last use the semicolon (;) between them, like

f[y_]:=(x=y+5;x^2)

Just don't use a ; for the last statement.

If your set of commands grows bigger you might want to use scoping structures like Module or Block.

• I think one should localize variables regardless of the program size, since programs do evolve and unlocalized variables are an invitation for trouble. Commented Nov 29, 2011 at 20:49

You are looking for CompoundExpression (short form ;):

f[x_]:= (thing = x+5 ; thing^2)

The parentheses are necessary due to the very low precedence of ;.

As Szabolcs called me on, you cannot write:

f[x_]:= (x = x+5 ; x^2)

See this answer for an explanation and alternatives.

Leonid, who you should listen to, says that thing should be localized. I didn't do this above because I wanted to emphasize CompoundExpression as a specific fit for your "and then" construct. As it is written, this will affect the global value of thing which may or may not be what you actually want to do. If it is not, see both the answer linked above, and also:

• Wow, 30 seconds! I'll delete mine :) Commented Nov 29, 2011 at 20:03
• But only if you correct the x=x+5 bit either by using another variable or HoldAll or something that avoids obvious errors! Commented Nov 29, 2011 at 20:04
• @Szabolcs oops! Speed has is failings. Commented Nov 29, 2011 at 20:06
• This is getting ridiculous. I wonder if Mr.Wizard has discovered the secret of time travel. Commented Nov 29, 2011 at 20:09
• I think thing should be localized. Commented Nov 29, 2011 at 20:48

Several people have mentioned already that you can use CompoundExpression:

f[x_] := (y=x+5; y^2)

However, if you use the same variable x in the expression as in the argument,

f[x_] := (x=x+5; x^2)

then you'll get errors when evaluating the function with a number. This is because := essentially defines a replacement of the pattern variables from the lhs, i.e. f[1] evaluates to the (incorrect) (1 = 1+5; 1^2).

So, as Sjoerd said, use Module (or Block sometimes, but this one has caveats!) to localize a function-variable:

f[x_] := Module[{y}, y=x+5; y^2]

Finally, if you need a function that modified its arguments, then you can set the attribute HoldAll: