ref: d4f4b292ca9c8665ef938036340ff32bf5128755
dir: /man/2/translate/
.TH TRANSLATE 2 .SH NAME translate: opendict, opendicts, mkdictname \- translation dictionaries .SH SYNOPSIS .EX include "translate.m"; translate := load Translate Translate->PATH; Dict: adt { new: fn(): ref Dict; add: fn(d: self ref Dict, file: string): string; xlate: fn(d: self ref Dict, s: string): string; xlaten: fn(d: self ref Dict, s: string, note: string): string; }; init: fn(); opendict: fn(file: string): (ref Dict, string); opendicts: fn(files: list of string): (ref Dict, string); mkdictname: fn(locale, app: string): string; .EE .SH DESCRIPTION The .B Translate module provides access to the translation dictionaries defined by .IR translate (6), intended for the translation of text from one natural language to another. .PP .B Init should be called before using any of these functions. .PP .B Opendict opens a dictionary .I file (of the format defined below) and returns a tuple: a reference to a .B Dict that represents it and a diagnostic string (which is nil if no error occurred). .B Opendicts is similar, but loads each of the .I files in turn into the same .BR Dict , producing a composite dictionary in which translations in later files can override translations in earlier ones; the diagnostic string summarises all errors (if any). .PP .B Mkdictname returns the conventional name of a dictionary file given locale and application names. The .I locale is normally .B nil to use the current locale, which is formed by binding the desired locale directory (or directories) onto .BR /lib/locale . .PP .B Dict.new returns an empty dictionary. .B Dict.add loads the given dictionary .I file into an existing dictionary, returning a non-nil diagnostic string on error. Translations are made by .B Dict.xlate and .BR Dict.xlaten : they look for a string .I s (eg, text in one language), optionally qualified by a .IR note , and return the corresponding translation text from the dictionary. If no such translation exists, they return the original text .IR s . .SH EXAMPLE The following shows one possible style of use: .PP .EX .ta 4n 8n 12n 16n 20n include "translate.m"; translate: Translate; Dict: import translate; dict: ref Dict; X(s: string): string { if(dict == nil) return s; return dict.xlate(s); } init(ctxt: ref Draw->Context, args: list of string) { ... translate = load Translate Translate->PATH; if(translate != nil){ translate->init(); (dict, nil) = translate->opendict( translate->mkdictname("", "vmail")); } ... optioncfg := array [] of { "frame .op -relief flat -borderwidth 8", "frame .op.lbs", "label .op.lbs.a -text {" + X("Voice Mail Active") + ":}", "label .op.lbs.g -text {" + X("Answer Calls With") + ":}", "label .op.lbs.r -text {" + X("Rings before Answering") + ":}", "label .op.lbs.l -text {" + X("Length of Incoming Messages") + ":}}", ... }; ... wmlib->tkcmds(top, optioncfg); } .EE .PP The intermediate function .B X is defined to allow the program to be used (albeit with text in English) even when the .B Translate module cannot be loaded. .SH FILES .BI /locale/ locale /dict/ app .SH SOURCE .B /appl/lib/translate.b .SH SEE ALSO .IR translate (6)