# What's the point of lambda in scheme?

I am learning scheme. I know how to use both lambda and let expressions.

However I'm struggling to figure out what the point is of using lambda. Can't you do everything with let that you can with lambda?

It would be especially helpful to see an example of a situation where a lambda expression is a better choice than let.

One other thing - are there also situations where let is more useful than lambda? If so such an example would be nice as well.

Thanks!

Edit: I'm also interested in contrasting define and lambda, as they seem to perform similar tasks.

## Update:

Thanks for the help everyone. I did some more looking into lambda/let/define after reading your answers, and now understand it a lot better.

I came accross an excellent example of cool lambda useage - returning anonymous functions from procedures. For example, the procedure `operateTwice` below returns an anonymous function that is based on parameters passed in to the procedure:

``````(define operateTwice
(lambda (op1 op2)
(lambda (x y)
(op2 (op1 x y) y))))

((operateTwice * +) 2 3) ;equivalent to: (+ (* 2 3) 3), or in standard notation 2*3+3
``````

Output:

``````9
``````
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## 6 Answers

A `let` is a `lambda`.

E.g.

``````(let ((x 1))
body)
``````

can be translated into

``````((lambda (x) body) 1)
``````

Furthermore, in Scheme all control and environment structures can be represented by lambda expressions and applications of lambdas.

So, `lambda` is strictly more powerful than `let` and forms the basis of many of the interesting constructs found in Scheme.

Concerning `define` and `lambda`, a top-level `define` adds a binding to the top-level environment.

When you write

``````(define (f x)
body)
``````

you are really saying

``````(define f (lambda (x) body))
``````

Nested defines are translated into `letrec`, which can be rewritten using lambdas as well.

So, again, a lot of Scheme constructs can be translated into something using `lambda`, and therefore it is really worthwile that you understand `lambda` well.

-
Awesome - totally makes sense, thanks! –  Cam May 31 '10 at 11:28
Hey, you can even construct natural numbers and arythmetic operations with nothing more than lambdas. –  Tadeusz A. Kadłubowski May 31 '10 at 11:37
You should answer anonymous lambda functions (functional programming) on CS site. –  Guy Coder Feb 12 '13 at 2:55

You use lambda if you want to create a function to use it as an argument to another function (like for example `map`), but you don't actually want to name the function. Example:

If you want to add 42 to every number in a list you can do:

``````(define (add42 x) (+ x 42))
(map add42 (list 1 2 3 4))
``````

But if you don't want to give a name to a function that you only use this once you could just do:

``````(map (lambda (x) (+ x 42)) (list 1 2 3 4))
``````
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Thanks. Can you provide some details regarding why you mgiht choose either one? You said "if you don't want to give a name to a function ...". But why wouldn't you? –  Cam May 31 '10 at 11:16
In scheme and the other functional programs you use functions so much that you do not want to pollute your namespace by defining them even if you use them only once. Additionally very simple functions cannot bear the overhead of defining them separately and it would be very tiresome to have to look for their definitions in another place than where you need them. It will become evident after some use. It is difficult to explain without actually experiencing it. –  Peter Tillemans May 31 '10 at 11:24
Why give it a name when you need it only in one single occasion? Instead of thinking of some a name that won't clutter your namespace, you can just pass an anonymous function. –  LukeN May 31 '10 at 11:24
@incresiman: 1. You need to think of a name first. If you use a lot of little functions like this, this can become tiresome. 2. The more functions you define the harder it will become to think of an unused function name. 3. It will also become harder to remember which function does what, if you define a lot of little functions. 4. As you can see in my example the version with lambda is also a bit shorter than the one with define. –  sepp2k May 31 '10 at 11:27

Let is actually just shorthand for a Lambda expression. The following two expressions are equivalent:

``````(let ((alpha 7)) (* 5 alpha))

((lambda (alpha) (* 5 alpha)) 7)
``````

Lambda follows the philosophy of the language that everything should look like a mathematical function. But in practice Let makes it easier to figure out what is happening if there are too many variables. Imagine 10 variables which have their values defined after the Lambda block, and you trying to match each of those with the variable name, with Let the values of variables are placed right next to their names, convenient for the programmer but conforming less to the Functional Programming philosophy.

Lambda can be used to return a function from a higher order function however let cannot do that. Eg:

``````(define (plus-list x)
(cond ((number? x)
(lambda (y) (+ (sum-n x) y)))
((list? x)
(lambda (y) (+ (sum-list x) y)))
(else (lambda (x) x))
))

> ((plus-list 3) 4)
10
> ((plus-list '(1 3 5)) 5)
14
> ((plus-list 'a) 5)
5
``````

Lambda can also be used to pass a function to a function:

``````>(map (lambda (x) (+ 1 x)) '(-1 2 -3))
(0 3 -2)
``````
-

lambda creates new anonymous functions, which of course are evaluated each time you use them.

let creates temporary names for values and are set once for use in the scope defined by the let form.

They are really very different beasts.

some examples :

(lambda (x) (* 5 x))

(let ([x 2]) (* 5 x)) 10 (let ([f (lambda (x) (* 5 x))]) (f 2)) 10

first form creates a function to multiply by 5

second form assign 2 to x and multiplies it by 5 resulting in 10

third we use the function of 1 (which mutiplies by 5) and call it with 2 as a parameter resulting also in 10

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I think that makes sense. But then why use lambda instead of define? –  Cam May 31 '10 at 11:13
You don't always need a name for a function, thus you don't always need define. –  nos May 31 '10 at 11:18
Right - got that from sepp2k's answer. Why would you want to not name a function though? (might be best to respond under sepp2k's answer so as to not duplicate this conversation). Thanks! –  Cam May 31 '10 at 11:21
@incrediman, `define` is a special form and cannot be part of an expression because it can mess up the local environment since it adds or replaces variable names. That is not acceptable. The names must already exist prior evaluation. –  Nick Dandoulakis May 31 '10 at 11:24

You can think it like that... you create a function that uses another function but you want to make things more modular so what you do is you call the second function as an argument of the first one, and that leaves you the possibility to change the second whenever you feel like you need another functionality... hope that makes sense

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In Scheme a procedure (or function) is a first class object like a list, a number or a string. To create a list literal you use the primitive called `list`:

``````> (define marks (list 33 40 56))
> marks
> (33 40 56)
``````

Just like this, to create a procedure, you use the `lambda` primitive (or special form):

``````> (define add-marks (lambda (m) (apply + m)))
> (add-marks marks)
> 129
``````

As procedures are the primary form of abstraction, Scheme provides a shortcut for `define` to make it easy to bind new procedures:

``````> (define (add-marks m) (apply + m))
``````

Other than this, procedures are just like all other first class objects. They can be passed as arguments to other procedures and a procedure can evaluate to produce (or return) another procedure.

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