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Crisp

Purity in Coding

Crisp is a dialect of Lisp with absolutely minimal syntax designed and optimised for use in creating web applications. A purely functional language, it's extremely easy to write efficient, clean and maintainable programs and Crisp's interpreted nature means changing your code is a simple as changing a source file.

What's more, Crisp is easy to understand. Take a look at the following program:

;; Crisp example program.
;; Author: Saul Johnson
;; Notes: Replaces every occurrence of 'foo' in the document in the file 
;; specified by the 'input' parameter and writes the result to the file 
;; specified by the 'output' parameter.

;; Every program is a single lambda (i.e. function).
(lambda (input output) 
	;; The let block allows you to bind symbols to expressions (i.e. declare variables).
	(let 
		;; Here we actually write the file contents.
		(file-set-text output (replace contents "foo" "bar")) 
		(contents . (file-get-text path))))

By taking a glance over that source code, we can see that:

  • Crisp is purely functional - unlike programming languages such as C# and PHP, Crisp programs are composed from function applications rather than classes and methods.
  • A Crisp program is a "lambda" (i.e. a function) that can take parameters. These parameters can be passed to the program via the command line:
crisp.exe -f example.csp -a "\"foo.txt\" \"bar.txt\""

The Language

The Crisp language is extremely simple at its core, using the same representation for code and data. Just like in Common Lisp, Crisp programs are just lists that are evaluated according to a set of rules.

Types of Expression

Symbolic expressions (or s-expressions) can be of one of several different types in Crisp. An expression is considered atomic if it is not a pair or a function.

Name Atomic? Examples Notes
Boolean Yes true false The true or false keywords evaluate to boolean atoms in Crisp.
Constant Yes (quote my-constant) In Crisp, calling the quote special form on a symbol or list will return it as a data structure instead of evaluating it (that is, with symbols converted to constants).
Lambda No (lambda (x) (add x 1)) The lambda function can be used to create a callable closure. For example, if the lambda on the left was bound to a symbol increment then calling (increment 3) would return 4.
Nil Yes nil The nil keyword represents a null value in Crisp.
Numeric Yes 9 12.358 -5 Numeric atoms are just numbers. They have the equivalent precision of a double in C#.
Pair No (1 . 2) ("hello" . "world") A pair is the basic building block of a list. It's the simplest data structure possible, consisting of a pair of expressions bound together in a cons cell. Read more about it on Wikipedia.
String Yes "hello" "world" A string represents a sequence of characters. Even though it is possible to manipulate strings in Crisp, they are immutable and considered to be atoms.

Crisp Is Lazy

Importantly, Crisp is lazily evaluated. Any values you bind in let or letrec blocks aren't actually evaluated until they're used in your executing code. Let's take a look back at our example:

;; Crisp example program.
;; Author: Saul Johnson
;; Notes: Replaces every occurrence of 'foo' in the document in the file 
;; specified by the 'input' parameter and writes the result to the file 
;; specified by the 'output' parameter.

;; Every program is a single lambda (i.e. function).
(lambda (input output) 
	;; The let block allows you to bind symbols to expressions (i.e. declare variables).
	(let 
		;; Here we actually write the file contents.
		(file-set-text output (replace contents "foo" "bar")) 
		(contents . (file-get-text path))))

The call to the file-get-text function only happens when we actually need its value, so nothing is read from disk until the evaluator hits line 12. If we comment out the line that actually requires the value of contents and replace it with a simple addition, for example:

;; Crisp example program.
;; Author: Saul Johnson
;; Notes: Replaces every occurrence of 'foo' in the document in the file 
;; specified by the 'input' parameter and writes the result to the file 
;; specified by the 'output' parameter.

;; Every program is a single lambda (i.e. function).
(lambda (input output) 
	;; The let block allows you to bind symbols to expressions (i.e. declare variables).
	(let 
		;; We've removed the part where we write the file contents!
		(add 1 2)
		(contents . (file-get-text path))))

Now, no data is actually read from disk because the expression bound to the contents symbol is never evaluated. This is extrememly important to bear in mind when your code is designed to produce side-effects (for example, writing a record to a database or a text file to disk).

Binding Values & Applying Functions

To apply a function, we write a list with the symbol bound to the function as its first element, followed by any parameters we want to pass to the function. For example, in the following program we create a lambda that will increment any given number by 1, then we bind it to the symbol increment. In the body of the let block, we make a call to the lambda bound to increment, passing in the number that the user specified on the command line:

;; Crisp example program.
;; Author: Saul Johnson
;; Notes: Increments a number by 1 using an 'increment' function.

(lambda (x) 
	(let 
		;; Call the increment function with the value passed to the program.
		(increment x) 
		;; Bind a lambda to the 'increment' symbol that will return the value
		;; of its paramater plus 1.
		(increment . (lambda (n) (add n 1))))) 

Now if we run this program on the command line using crisp.exe -f "increment.csp" -a 5 we'll get the number 6 passed back as the result; we just incremented a number!

Please remember: This project is far from complete. Both the collection of special forms and the standard library are very minimal and nothing has been tested for potential security vulnerabilities. Any special forms you create yourself would be extremely welcome as part of this project if you'd like to contribute them!