# Using Let in Scheme

I want to write a program to find the roots of the quadratic equation in Scheme. I used LET for certain bindings.

``````(define roots-with-let
(λ (a b c)
(let ((4ac (* 4 a c))
(2a (* 2 a))
(discriminant (sqrt ( - (* b b) (4ac)))))
(cons ( / ( + (- b) discriminant) 2a)
( / ( - (- b) discriminant) 2a)))))
``````

I defined the discriminant with `4ac` since I did not want `(* 4 a c)`. Even though I have defined `(4ac (* 4 a c))`, it is giving me this error:

expand: unbound identifier in module in: `4ac`.

My question is how is let evaluated (what order)? And if i want `4ac` in my `let` should i write another inner `let`? Is there a better way to do this?

-
This is an example from SICP Lecture/Book ! – Nishant Dec 25 '13 at 11:11

Use `let*` instead of `let`.

The difference between `let` and `let*` is the following:

`let*` binds variables from left to right. Earlier bindings can be used in new binding further to the right (or down).

`let` on the other hand can be thought of as syntactic sugar (or macro) for simple lambda abstraction:

``````(let ((a exp1)
(b exp2))
exp)
``````

is equivalent to

``````((lambda (a b)
exp)
exp1 exp2)
``````
-
Could you please comment on the difference of the evaluation order between the two? – unj2 Jun 3 '09 at 17:39
it's not (only) about evaluation order, it's mostly about scope. in the plain let, the scope of every variable is only the expression, not the bindings. in let*, the scope of each variable is the expression and every binding after itself. – Javier Jun 3 '09 at 17:52

When you use let, the bindings are not visible in any of the bodies. Use let* instead and see the RNRS docs for details.

-
• 4ac is a variable with a numeric value, so (4ac) is not meaningful.

• LET binds all variables, but the variables can't be used in the computations for the values.

This does not work:

``````(let ((a 1) (b 1) (c (* a b)))
c)
``````

Use:

``````(let ((a 1) (b 1))
(let ((c (* a b)))
c))
``````

Above introduces A and B with the first LET. In the second LET both A and B now can be used to compute C.

Or:

``````(let* ((a 1) (b 1) (c (* a b)))
c)
``````
-

You'll need a special `let`-construct (`let*`) here since the variables inside the let-definition refer to each other.

It's rather a problem of defining a scope than of evaluating an expression (In usual `let`-definitions, the order of evaluation doesn't matter since the values may not use each other)

-