Add notes about records to Standard ML page.

This commit is contained in:
inaimathi 2015-06-06 12:51:45 -04:00
parent 9e44a5b9ee
commit 152c03ddf9

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@ -4,6 +4,7 @@ contributors:
- ["Simon Shine", "http://shine.eu.org/"]
- ["David Pedersen", "http://lonelyproton.com/"]
- ["James Baker", "http://www.jbaker.io/"]
- ["Leo Zovic", "http://langnostic.inaimathi.ca/"]
---
Standard ML is a functional programming language with type inference and some
@ -136,9 +137,29 @@ val mixup = [ ("Alice", 39),
val good_bad_stuff =
(["ice cream", "hot dogs", "chocolate"],
["liver", "paying the rent" ]) (* string list * string list *)
["liver", "paying the rent" ]) (* : string list * string list *)
(* Records are tuples with named slots *)
val rgb = { r=0.23, g=0.56, b=0.91 } (* : {b:real, g:real, r:real} *)
(* You don't need to declare their slots ahead of time. Records with
different slot names are considered different types, even if their
slot value types match up. For instance... *)
val Hsl = { H=310.3, s=0.51, l=0.23 } (* : {H:real, l:real, s:real} *)
val Hsv = { H=310.3, s=0.51, v=0.23 } (* : {H:real, s:real, v:real} *)
(* ...trying to evaluate `Hsv = Hsl` or `rgb = Hsl` would give a type
error. While they're all three-slot records composed only of `real`s,
they each have different names for at least some slots. *)
(* You can use hash notation to get values out of tuples. *)
val H = #H Hsv (* : real *)
val s = #s Hsl (* : real *)
(* Functions! *)
fun add_them (a, b) = a + b (* A simple function that adds two numbers *)
val test_it = add_them (3, 4) (* gives 7 *)
@ -225,17 +246,26 @@ fun fibonacci 0 = 0 (* Base case *)
| fibonacci 1 = 1 (* Base case *)
| fibonacci n = fibonacci (n - 1) + fibonacci (n - 2) (* Recursive case *)
(* Pattern matching is also possible on composite types like tuples and lists.
Writing "fun solve2 (a, b, c) = ..." is in fact a pattern match on the one
three-tuple solve2 takes as argument. Similarly, but less intuitively, you
can match on a list consisting of elements in it (from the beginning of the
list only). *)
(* Pattern matching is also possible on composite types like tuples, lists and
records. Writing "fun solve2 (a, b, c) = ..." is in fact a pattern match on
the one three-tuple solve2 takes as argument. Similarly, but less intuitively,
you can match on a list consisting of elements in it (from the beginning of
the list only). *)
fun first_elem (x::xs) = x
fun second_elem (x::y::xs) = y
fun evenly_positioned_elems (odd::even::xs) = even::evenly_positioned_elems xs
| evenly_positioned_elems [odd] = [] (* Base case: throw away *)
| evenly_positioned_elems [] = [] (* Base case *)
(* When matching on records, you must use their slot names, and you must bind
every slot in a record. The order of the slots doesn't matter though. *)
fun rgbToTup {r, g, b} = (r, g, b) (* fn : {b:'a, g:'b, r:'c} -> 'c * 'b * 'a *)
fun mixRgbToTup {g, b, r} = (r, g, b) (* fn : {b:'a, g:'b, r:'c} -> 'c * 'b * 'a *)
(* If called with {r=0.1, g=0.2, b=0.3}, either of the above functions
would return (0.1, 0.2, 0.3). But it would be a type error to call them
with {r=0.1, g=0.2, b=0.3, a=0.4} *)
(* Higher order functions: Functions can take other functions as arguments.
Functions are just other kinds of values, and functions don't need names