SICP uses a subset of Scheme
SICP is a book used in introductory computer science course. While it explains some advanced concepts, it uses a very tiny language, a subset of the Scheme language and a sub-subset of any real world Scheme or Lisp a typical implementation provides. Students using SICP are supposed to start with a simple and easy to learn language. From there they learn to implement more complex language additions.
Only positional parameters are being used in plain educational Scheme
There are for example no macros developed in SICP. Add that standard Scheme does have only positional parameters for functions.
Lisp and Scheme offer also more expressive argument lists
In 'real' Lisp or Scheme one can use one or more of the following:
objects or records/structures (poor man's closures) which group things. An object passed can contain several data items, which otherwise would need to be passed 'spread'.
defaults for optional variables. Thus we need only to pass those that we want to have a certain non-default value
optional and named arguments. This allows flexible argument lists which are much more descriptive.
computed arguments. The value or the default value of arguments can be computed based on other arguments
Above leads to more complicated to write function interfaces, but which are often easier to use.
In Lisp it is good style to have descriptive names for arguments and also provide online documentation for the interface. The development environment will display information about the interface of a function, so this information is typically only a keystroke away or is even display automatically.
It's also good style for any non-trivial interface which is supposed to be used interactively by the user/developer to check its arguments at runtime.
Example for a complex, but readable argument list
When there are more arguments, then Common Lisp provides named arguments, which can appear in any order after the normal argument. Named arguments provide also defaults and can be omitted:
(defun order-product (product
(vat (local-vat seller))
(price (best-price product))
"The function ORDER-PRODUCT ..." ; documentation string
(declare (type ratio vat price) ; type declarations
(type (integer 0) amount)
(type boolean free-delivery-p))
We would use it then:
Above uses the
seller argument before the
buyerargument. It also omits various arguments, some of which have their values computed.
Now we can ask whether such extensive arguments are good or bad. The arguments for them:
- the function call gets more descriptive
- functions have standard mechanisms to attach documentation
- functions can be asked for their parameter lists
- type declarations are possible -> thus types don't need to be written as comments
- many parameters can have sensible default values and don't need to be mentioned
Several Scheme implementations have adopted similar argument lists.