ref: df03eca7e7cbfadf1cf8c8c5a94390eaa5013a8b
dir: /appl/lib/translate.b/
implement Translate; # # prototype string translation for natural language substitutions # # Copyright © 2000 Vita Nuova Limited. All rights reserved. # include "sys.m"; sys: Sys; include "bufio.m"; include "translate.m"; NTEXT: con 131; # prime NNOTE: con 37; init() { sys = load Sys Sys->PATH; } opendict(file: string): (ref Dict, string) { d := Dict.new(); return (d, d.add(file)); } opendicts(files: list of string): (ref Dict, string) { d := Dict.new(); err: string; for(; files != nil; files = tl files){ e := d.add(hd files); if(e != nil){ if(err != nil) err += "; "; err += (hd files)+":"+e; } } return (d, err); } Dict.new(): ref Dict { d := ref Dict; d.texts = array[NTEXT] of list of ref Phrase; d.notes = array[NNOTE] of list of ref Phrase; return d; } Dict.xlate(d: self ref Dict, text: string): string { return d.xlaten(text, nil); } Dict.xlaten(d: self ref Dict, text: string, note: string): string { nnote := 0; if(note != nil){ pnote := look(d.notes, note); if(pnote != nil) nnote = pnote.n + 1; } (h, code) := hash(text, len d.texts); for(l := d.texts[h]; l != nil; l = tl l){ p := hd l; if(p.hash == code && p.key == text && p.note == nnote) return p.text; } return text; } mkdictname(locale, app: string): string { if(locale == nil || locale == "default") return "/locale/dict/"+app; # looks better return "/locale/"+locale+"/dict/"+app; } # # eventually could load a compiled version of the tables # (allows some consistency checking, etc) # Dict.add(d: self ref Dict, file: string): string { bufio := load Bufio Bufio->PATH; if(bufio == nil) return "can't load Bufio"; fd := bufio->open(file, Sys->OREAD); if(fd == nil) return sys->sprint("%r"); ntext := 0; nnote := 0; errs: string; for(lineno := 1; (line := bufio->fd.gets('\n')) != nil; lineno++){ if(line[0] == '#' || line[0] == '\n') continue; (key, note, text, err) := parseline(line); if(err != nil){ if(errs != nil) errs += ","; errs += string lineno+":"+err; } pkey := look(d.texts, key); if(pkey != nil) key = pkey.key; # share key strings (useful with notes) pkey = insert(d.texts, key); if(note != nil){ pnote := look(d.notes, note); if(pnote == nil){ pnote = insert(d.notes, note); pnote.n = nnote++; } pkey.note = pnote.n+1; } pkey.text = text; pkey.n = ntext++; } return errs; } parseline(line: string): (string, string, string, string) { note, text: string; (key, i) := quoted(line, 0); if(i < 0) return (nil, nil, nil, "bad key field"); i = skipwhite(line, i); if(i < len line && line[i] == '('){ (note, i) = delimited(line, i+1, ')'); if(note == nil) return (nil, nil, nil, "bad note syntax"); } i = skipwhite(line, i); if(i >= len line) return (key, note, key, nil); # identity if(line[i] != '=') return (nil, nil, nil, "missing/misplaced '='"); (text, i) = quoted(line, i+1); if(i < 0) return (nil, nil, nil, "missing translation"); return (key, note, text, nil); } quoted(s: string, i: int): (string, int) { i = skipwhite(s, i); if(i >= len s || (qc := s[i]) != '"' && qc != '\'') return (nil, -1); return delimited(s, i+1, qc); } delimited(s: string, i: int, qc: int): (string, int) { o := ""; b := i; for(; i < len s; i++){ c := s[i]; if(c == qc) return (o, i+1); if(c == '\\' && i+1 < len s){ i++; c = s[i]; case c { 'n' => c = '\n'; 'r' => c = '\r'; 't' => c = '\t'; 'b' => c = '\b'; 'a' => c = '\a'; 'v' => c = '\v'; 'u' => (c, i) = hex2c(s, i + 1); i--; '0' => c = '\0'; * => ; } } o[len o] = c; } return (nil, -1); } hex2c(s: string, i: int): (int, int) { x := 0; for (j := i; j < i + 4; j++) { if (j >= len s) return (Sys->UTFerror, j); c := s[j]; if (c >= '0' && c <= '9') c = c - '0'; else if (c >= 'a' && c <= 'f') c = c - 'a' + 10; else if (c >= 'A' && c <= 'F') c = c - 'A' + 10; else return (Sys->UTFerror, j); x = (x * 16) + c; } return (x, j); } skipwhite(s: string, i: int): int { for(; i<len s && (s[i] == ' ' || s[i] == '\t' || s[i] == '\n'); i++) ; return i; } look(tab: array of list of ref Phrase, key: string): ref Phrase { (h, code) := hash(key, len tab); for(l := tab[h]; l != nil; l = tl l){ p := hd l; if(p.hash == code && p.key == key) return p; } return nil; } insert(tab: array of list of ref Phrase, key: string): ref Phrase { (h, code) := hash(key, len tab); p := ref Phrase; p.n = 0; p.note = 0; p.key = key; p.hash = code; #sys->print("%s = %ux [%d]\n", key, code, h); tab[h] = p :: tab[h]; return p; } # hashpjw from aho & ullman hash(s: string, n: int): (int, int) { h := 0; for(i:=0; i<len s; i++){ h = (h<<4) + s[i]; if((g := h & int 16rF0000000) != 0) h ^= ((g>>24) & 16rFF) | g; } return ((h&~(1<<31))%n, h); }