Okay this may sound like a ridiculous question, but how do you return a list in scheme.?
Based on seeing some of your other questions, I think you may be having trouble getting your head wrapped around the concepts central to a functional language such as Scheme.
At the level you're learning Scheme (novice), every function you write has an input and an output, and the body of every function is a single expression. Whatever value that expression evaluates to is returned by the function. There is no need to explicitly "return" anything as you would in an imperative language like Java or C; it just happens as a direct consequence of evaluating the expression.
The body of a function is a single expression. It's not like Java where the body of a method consists of a series of instructions:
Scheme functions evaluate a single expression; nothing more. Here's a simple function that adds 5 to whatever number is passed as an argument:
The body of the function is
Lists aren't much different. All you need is an expression that will construct a list. Two have already been mentioned: list is used to build a list from scratch if you already have all the elements; cons is used to add a single element to an existing list and is often used recursively.
Here's a function that consumes a number
In both the base and recursive cases, a list is returned by simply evaluating an expression that uses one of the list-building functions.
Here's another example. This one uses our
Again, both the base and recursive cases are returning lists by evaluating expressions that result in lists.
The key thing to remember about Scheme is all functions return something, and that something is simply the result of evaluating an expression. The body of a Scheme function is a single expression.
You probably want simply:
You can also construct lists by specifying an element and a list to add it to:
Here's an example of returning a list from a function:
Return value will be the list:
Another not-so-well known way to do this:
that is, the "list" function itself can be defined as: