ref: 1dbebd5fe59f27106a4dfa553c9ee8b893d6008e
dir: /Generics/generics.b/
implement Generics; include "sys.m"; include "draw.m"; include "bufio.m"; sys: Sys; print: import sys; bufio: Bufio; Iobuf: import bufio; Generics: module { init: fn(nil: ref Draw->Context, nil: list of string); }; # Polymorphic type Rd: adt[T] { t: ref Iobuf; ws: fn(rd: self ref Rd[T]): int; }; Num: adt { pick { String => s: string; Int => d: int; } stringify: fn(v: self ref Num): string; }; # Polymorphic and pick-tagged type Word: adt[T] { w: T; pick { String => s: string; } eq: fn(a, b: ref Word): int; }; Integer: adt { d: int; }; Int: type ref Integer; init(nil: ref Draw->Context, nil: list of string) { sys = load Sys Sys->PATH; bufio = load Bufio Bufio->PATH; in := bufio->open("/fd/0", bufio->OREAD); rd := ref Rd[ref Iobuf](in); print("Type something: "); c := rd.ws(); print("Broke on '%c'\n", c); d := ref Num.Int(5); s := ref Num.String("Five"); print("%s\n", d.stringify()); print("%s\n", s.stringify()); words: list of ref Word[Int].String; smiley := "☺"; frowny := ":("; # Format is: Adt[Type].PickTag(fields...) sword := ref Word[Int].String(Int(9), smiley); words = sword :: words; words = ref Word[Int].String(Int(7), frowny) :: words; if(ismember(sword, words)) print("Found %d!\n", sword.w.d); backwords := rev(words); print("Head was: %s\nHead is: %s\n", (hd words).s, (hd backwords).s); strings: list of string; strings = "hi" :: strings; strings = "hello" :: strings; # plist is a `list of (string, ref Word.String)` plist := pair(strings, words); (str, word) := hd plist; print("Head of plist: ( %s, { %s, %d } )\n", str, word.s, word.w.d); exit; } # Skip white space Rd[T].ws(rd: self ref Rd[T]): int { while(isspace(c := rd.t.getb())) {} return c; } Word[T].eq(a, b: ref Word): int { return a.w == b.w; # This is a shallow comparison, don't rely on this } Num.stringify(v: self ref Num): string { pick xv := v { String => return xv.s; Int => return string xv.d; * => raise "type error"; } } # Matches whitespace characters isspace(c: int): int { return c == ' ' || c == '\r' || c == '\t' || c == '\n'; } # Checks if x is a member of l ismember[T](x: T, l: list of T): int for { T => eq: fn(a, b: T): int; } { for(; l != nil; l = tl l) if(T.eq(x, hd l)) return 1; return 0; } # Pairs two lists of separate types(?) pair[T1, T2](l1: list of T1, l2: list of T2): list of (T1, T2) { if(l1 == nil && l2 == nil) return nil; return (hd l1, hd l2) :: pair(tl l1, tl l2); } # Reverse a list rev[T](l: list of T): list of T { r: list of T; for(; l != nil; l = tl l) r = hd l :: r; return r; }