mirror of
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207 lines
6.7 KiB
Markdown
207 lines
6.7 KiB
Markdown
# Special Forms
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Janet is a lisp and so is defined in terms of mostly S-expressions, or
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in terms of Janet, tuples. Tuples are used to represent function calls, macros,
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and special forms. Most functionality is exposed through functions, some
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through macros, and a minimal amount through special forms. Special forms
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are neither functions nor macros -- they are used by the compiler to directly
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express a low level construct that can not be expressed through macros or functions.
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Special forms can be thought of as forming the real 'core' language of janet.
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Below is a reference for all of the special forms in Janet.
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## (def name meta... value)
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This special form binds a value to a symbol. The symbol can the be substituted
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for the value in subsequent expression for the same result. A binding made by def
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is a constant and cannot be updated. A symbol can be redefined to a new value, but previous
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uses of the binding will refer to the previous value of the binding.
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```lisp
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(def anumber (+ 1 2 3 4 5))
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(print anumber) # prints 15
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```
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Def can also take a tuple, array, table or struct to perform destructuring
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on the value. This allows us to do multiple assignments in one def.
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```lisp
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(def [a b c] (range 10))
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(print a " " b " " c) # prints 0 1 2
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(def {:x x} @{:x (+ 1 2)})
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(print x) # prints 3
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(def [y {:x x}] @[:hi @{:x (+ 1 2)}])
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(print y x) # prints hi3
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```
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Def can also append metadata and a docstring to the symbol when in the global scope.
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If not in the global scope, the extra metadata will be ignored.
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```lisp
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(def mydef :private 3) # Adds the :private key to the metadata table.
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(def mydef2 :private "A docstring" 4) # Add a docstring
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# The metadata will be ignored here because mydef is
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# accessible outside of the do form.
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(do
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(def mydef :private 3)
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(+ mydef 1))
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```
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## (var name meta... value)
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Similar to def, but bindings set in this manner can be updated using set. In all other respects is the
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same as def.
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```lisp
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(var a 1)
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(defn printa [] (print a))
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(printa) # prints 1
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(++ a)
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(printa) # prints 2
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(set a :hi)
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(printa) # prints hi
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```
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## (fn name? args body...)
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Compile a function literal (closure). A function literal consists of an optional name, an
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argument list, and a function body. The optional name is allowed so that functions can
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more easily be recursive. The argument list is a tuple of named parameters, and the body
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is 0 or more forms. The function will evaluate to the last form in the body. The other forms
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will only be evaluated for side effects.
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Functions also introduced a new lexical scope, meaning the defs and vars inside a function
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body will not escape outside the body.
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```lisp
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(fn []) # The simplest function literal. Takes no arguments and returns nil.
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(fn [x] x) # The identity function
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(fn identity [x] x) # The identity function - the name will also make stacktraces nicer.
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(fn [] 1 2 3 4 5) # A function that returns 5
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(fn [x y] (+ x y)) # A function that adds its two arguments.
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(fn [& args] (length args)) # A variadic function that counts its arguments.
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# A function that doesn't strictly check the number of arguments.
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# Extra arguments are ignored, and arguments not passed are nil.
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(fn [w x y z &] (tuple w w x x y y z z))
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```
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## (do body...)
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Execute a series of forms for side effects and evaluates to the final form. Also
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introduces a new lexical scope without creating or calling a function.
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```lisp
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(do 1 2 3 4) # Evaluates to 4
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# Prints 1, 2 and 3, then evaluates to (print 3), which is nil
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(do (print 1) (print 2) (print 3))
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# Prints 1
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(do
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(def a 1)
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(print a))
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# a is not defined here, so fails
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a
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```
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## (quote x)
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Evaluates to the literal value of the first argument. The argument is not compiled
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and is simply used as a constant value in the compiled code. Preceding a form with a
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single quote is shorthand for `(quote expression)`.
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```lisp
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(quote 1) # evaluates to 1
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(quote hi) # evaluates to the symbol hi
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(quote quote) # evaluates to the symbol quote
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`(1 2 3) # Evaluates to a tuple (1 2 3)
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`(print 1 2 3) # Evaluates to a tuple (print 1 2 3)
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```
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## (if condition when-true when-false?)
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Introduce a branching construct. The first form is the condition, the second
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form is the form to evaluate when the condition is true, and the optional
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third form is the form to evaluate when the condition is false. If no third
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form is provided it defaults to nil.
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The if special form will not evaluate the when-true or when-false forms unless
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it needs to - it is a lazy form, which is why it cannot be a function or macro.
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The condition is considered false only if it evaluates to nil or false - all other values
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are considered true.
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```lisp
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(if true 10) # evaluates to 10
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(if false 10) # evaluates to nil
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(if true (print 1) (print 2)) # prints 1 but not 2
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```
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## (splice x)
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The splice special form is an interesting form that doesn't have an analog in most lisps.
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It only has an effect in two places - as an argument in a function call, or as the argument
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to the unquote form. Outside of these two settings, the splice special form simply evaluates
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directly to it's argument x. The shorthand for splice is prefixing a form with a semicolon.
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In the context of a function call, splice will insert *the contents* of x in the parameter list.
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```lisp
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(+ 1 2 3) # evaluates to 6
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(+ @[1 2 3]) # bad
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(+ (splice @[1 2 3])) # also evaluates to 6
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(+ ;@[1 2 3]) # Same as above
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(+ ;(range 100)) # Sum the first 100 natural numbers
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(+ ;(range 100) 1000) # Sum the first 100 natural numbers and 1000
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```
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Notice that this means we rarely will need the `apply` function, as the splice operator is more flexible.
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The splice operator can also be used inside an unquote form, where it will behave like
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an `unquote-splicing` special in other lisps.
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## (while condition body...)
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The while special form compiles to a C-like while loop. The body of the form will be continuously evaluated
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until the condition is false or nil. Therefor, it is expected that the body will contain some side effects
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of the loop will go on for ever. The while loop always evaluates to nil.
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```lisp
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(var i 0)
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(while (< i 10)
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(print i)
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(++ i))
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```
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## (set l-value r-value)
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Update the value of a var l-value to a new value r-value. The set special form will then evaluate to r-value.
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The r-value can be any expression, and the l-value should be a bound var.
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## (quasiquote x)
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Similar to `(quote x)`, but allows for unquoting within x. This makes quasiquote useful for
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writing macros, as a macro definition often generates a lot of templated code with a
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few custom values. The shorthand for quasiquote is a leading tilde `~` before a form. With
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that form, `(unquote x)` will evaluate and insert x into the unquote form. The shorthand for
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`(unquote x)` is `,x`.
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## (unquote x)
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Unquote a form within a quasiquote. Outside of a quasiquote, unquote is invalid.
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